"This site requires JavaScript to work correctly"

Prof. Dr.-Ing. Günther Benstetter

Leitung


Sortierung:
Vortrag

  • Günther Benstetter

Advances in combined mechanical and electrical SPM characterization of thin films.

In: Nanobrücken 2022 - A Nanomechanical Testing Conference and Bruker User Meeting

Prag, Tschechische Republik

  • 08.-10.06.2022 (2022)
  • IQMA
  • NACHHALTIG
Zeitschriftenartikel

  • K. Hollstein
  • D. Entholzner
  • G. Zhu
  • K. Weide-Zaage
  • Günther Benstetter

Developing a micro-thermography system for thermal characterization of LED packages

In: Microelectronic Engineering vol. 254 pg. 111694.

  • (2022)

DOI: 10.1016/j.mee.2021.111694

LED system design is often limited by the thermal performance of the system. Increased temperatures can cause a decrease in optical performance and can lower the overall reliability of the system. Therefore, proper thermal management and design is crucial for the device performance. Accurately measuring the junction temperature of a LED die is a complicated task. This paper is focusing on the application of micro-thermography for measuring the resulting surface temperature of a bare die bonded on a PCB substrate. First, relevant literature about thermal management of LED systems and standard approaches for junction temperature measurements are given. Then, the thermography system is introduced, and the implementation of the measurement procedure is discussed. The emissivity correction is an important part of the calibration of the system and is described in detail. A thorough thermal analysis has been conducted using the novel micro-thermography approach and the results are used for determining the thermal resistance of the system under analysis. Furthermore, a thermal simulation has been conducted using Finite Element Modeling. The model and meshing are described, and initial simulation results are given. The experimental data is then used to modify the thermal simulation model to accurately represent the thermal behavior of the system.
  • IQMA
  • Elektrotechnik und Medientechnik
  • NACHHALTIG
Zeitschriftenartikel

  • Fabian Kühnel
  • Christoph Metzke
  • Jonas Weber
  • J. Schätz
  • G. Duesberg
  • Günther Benstetter

Investigation of Heater Structures for Thermal Conductivity Measurements of SiO2 and Al2O3 Thin Films Using the 3-Omega Method

In: Nanomaterials vol. 12

  • 04.06.2022 (2022)

DOI: 10.3390/nano12111928

A well-known method for measuring thermal conductivity is the 3-Omega (3ω) method. A prerequisite for it is the deposition of a metal heater on top of the sample surface. The known design rules for the heater geometry, however, are not yet sufficient. In this work, heaters with different lengths and widths within the known restrictions were investigated. The measurements were carried out on SiO2 thin films with different film thicknesses as a reference. There was a significant difference between theoretical deposited heater width and real heater width, which could lead to errors of up to 50% for the determined thermal conductivity. Heaters with lengths between 11 and 13 mm and widths of 6.5 µm or more proved to deliver the most trustworthy results. To verify the performance of these newfound heaters, additional investigations on Al2O3 thin films were carried out, proving our conclusions to be correct and delivering thermal conductivity values of 0.81 Wm-1 K-1 and 0.93 Wm-1 K-1 for unannealed and annealed samples, respectively. Furthermore, the effect of annealing on Al2O3 was studied, revealing a significant shrinking in film thickness of approximately 11% and an increase in thermal conductivity of 15%. The presented results on well-defined geometries will help to produce optimized heater structures for the 3ω method.
  • IQMA
  • NACHHALTIG
Zeitschriftenartikel

  • Yang Zhang
  • Xiaoping Li
  • Chunjie Niu
  • Yunqiu Cui
  • Weiyuan Ni
  • Günther Benstetter
  • Guangjiu Lei
  • Dongping Liu
  • Wenchun Wang

W nano-fuzz growth by high-flux He ion irradiation with their energy above 300 eV

In: Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms vol. 520 pg. 22-28.

  • (2022)

DOI: 10.1016/j.nimb.2022.04.002

Here experiments are designed to evaluate the effects of >300 eV He+ energy and temperature on the W nano-fuzz growth over W targets. Our measurements show that increasing He+ energy from 300 eV to 750 eV leads to an increase in the W sputtering yield, thus a decrease in the thickness of W fuzz layers. Under the 750 eV He+ irradiation, the growth of W fuzz layers over W targets is not obvious due to the He+ sputtering. The irradiation temperature varying in the range of 1300 K – 1600 K is most suitable for W fuzz growth by high-flux He+ irradiation over W targets. Our analysis indicates that the deposition of sputtered W atoms onto the neighboring W nano-fibers leads to an increase in their diameter, thus affecting the W fuzz growth. When the irradiation temperature varies from 1900 K to 2700 K, the thermodynamic instability of W nano-fibers, which are metastable can be greatly increased, resulting in their shrinkage.
  • IQMA
  • NACHHALTIG
Zeitschriftenartikel

  • W. Ni
  • C. Niu
  • Y. Zhang
  • L. Liu
  • Y. Cui
  • H. Fan
  • D. Liu
  • Günther Benstetter
  • G. Lei

Modeling W fuzz growth over polycrystalline W due to He ion irradiations at an elevated temperature

In: Journal of Nuclear Materials vol. 550 pg. 152917.

  • (2021)

DOI: 10.1016/j.jnucmat.2021.152917

Based on the physical processes, such as the collisions of energetic He ions in a fuzz layer, He+ implantations into W bulk, and surface erosion of W fuzz layer, we have modeled the growth of W fuzz layer over polycrystalline W targets under fusion-relevant He/D ion irradiations. From this modeling, we have found that the W fuzz growth results from He+ implantations into W bulk beneath the fuzz layer, and their subsequent erosion into W bulk. The fast-growing, slow-growing, and equilibrium regions are clearly observed during the growth of fuzz layer. In the equilibrium region, the maximum fuzz layer thickness is formed while the rate of W fuzz growth resulting from He+ implantations into W bulk is quite close to the erosion rate. Our study shows that the W fuzz layer with a large surface-to-volume ratio provides an entire protection against the He+ erosion into W bulk. In this study, we have predicted the maximum fuzz layer thickness at the fusion-relevant He+ dose of ~1030/m2, which is strongly dependent on the free distance of He+ ions in fuzz layer and the surface erosion yield of fuzz layer.
  • IQMA
  • Elektrotechnik und Medientechnik
  • NACHHALTIG
Zeitschriftenartikel

  • Christoph Metzke
  • Fabian Kühnel
  • Jonas Weber
  • Günther Benstetter

Scanning Thermal Microscopy of Ultrathin Films: Numerical Studies Regarding Cantilever Displacement, Thermal Contact Areas, Heat Fluxes, and Heat Distribution

In: Nanomaterials vol. 11 pg. 491.

  • (2021)

DOI: 10.3390/nano11020491

New micro- and nanoscale devices require electrically isolating materials with specific thermal properties. One option to characterize these thermal properties is the atomic force microscopy (AFM)-based scanning thermal microscopy (SThM) technique. It enables qualitative mapping of local thermal conductivities of ultrathin films. To fully understand and correctly interpret the results of practical SThM measurements, it is essential to have detailed knowledge about the heat transfer process between the probe and the sample. However, little can be found in the literature so far. Therefore, this work focuses on theoretical SThM studies of ultrathin films with anisotropic thermal properties such as hexagonal boron nitride (h-BN) and compares the results with a bulk silicon (Si) sample. Energy fluxes from the probe to the sample between 0.6 µW and 126.8 µW are found for different cases with a tip radius of approximately 300 nm. A present thermal interface resistance (TIR) between bulk Si and ultrathin h-BN on top can fully suppress a further heat penetration. The time until heat propagation within the sample is stationary is found to be below 1 µs, which may justify higher tip velocities in practical SThM investigations of up to 20 µms−1. It is also demonstrated that there is almost no influence of convection and radiation, whereas a possible TIR between probe and sample must be considered.
  • Elektrotechnik und Medientechnik
  • NACHHALTIG
Zeitschriftenartikel

  • Fabian Kühnel
  • Jonas Weber
  • Christoph Metzke
  • Günther Benstetter

Thermoreflectance Imaging neu gedacht. Eine günstige Alternative zur Ermittlung der thermischen Leitfähigkeit

In: WILEY GIT Labor-Fachzeitschrift

  • (2021)

Die thermische Leitfähigkeit dünner Schichten spielt eine zentrale Rolle bei der Entwicklung neuer mikroelektronischer Bauteile. Kann die entstehende Wärme in solchen Bauteilen nicht richtig abgeführt werden, bilden sich Hotspots, welche zu Bauteilversagen führen können. Das Ermitteln der thermischen Leitfähigkeiten, insbesondere bei dünnen Schichten, ist allerdings mit einigem Aufwand und Kosten verbunden. Im Bereich der Prozessoren- und Grafikkartenentwicklung liefern sich die Hersteller ein erbittertes Rennen, um das leistungsstärkste Produkt auf den Markt zu bringen. Dazu werden immer kleinere Transistoren benötigt. Inzwischen ist der dafür benötigte Fertigungsprozess bei einer Größe von 2 nm [1] angelangt. Mit zunehmender Verkleinerung steigt die Leistungsdichte und somit auch die erzeugte Wärme. Kann diese nicht effektiv abfließen, versagt das Bauteil. Dies ist ein entscheidender Grund dafür, weshalb die Untersuchung der thermischen Leitfähigkeit von dünnen Schichten immer mehr an Bedeutung gewinnt. Zur Untersuchung der thermischen Leitfähigkeit gibt es eine Vielzahl an Messmethoden, wie zum Beispiel die Laser-Flash-Methode, die Micro-Raman Methode, die Scanning Thermal Microscopy, die 3-Omega Methode oder die Thermoreflectance Imaging Methode. So unterschiedlich alle diese Methoden auch sind, eines haben sie doch gemeinsam: Sie sind äußerst komplex und benötigen sehr teures Equipment.
  • Elektrotechnik und Medientechnik
  • IQMA
  • NACHHALTIG
Zeitschriftenartikel

  • C. Niu
  • Y. Zhang
  • Y. Cui
  • X. Li
  • W. Liu
  • W. Ni
  • H. Fan
  • N. Lu
  • Günther Benstetter
  • G. Lei
  • D. Liu

Effect of temperature on the growth and surface bursting of He nano-bubbles in W under fusion-relevant He ion irradiations

In: Fusion Engineering and Design vol. 163 pg. 112159.

  • (2021)

DOI: 10.1016/j.fusengdes.2020.112159

Under fusion-relevant He+ irradiations, the W surface temperature is one of the most important parameters for controlling the fuzz growth over the W divertor targets, which is associated with the surface bursting of He nano-bubbles. Using He reaction rate model in W, we investigate the effect of temperature on the growth and surface bursting of He nano-bubbles under low-energy (100 eV) and large-flux (∼1022/m2⋅s) He+ irradiations. Increasing the irradiation temperature from 750 to 2500 K leads to a significant change in both the radius of He nano-bubbles and He retention. At an elevated temperature, He solute atoms prefer to rapidly diffuse into He nano-bubbles, thus affecting their concentration, growth and surface bursting. The decrease in He retention is attributed to an increase in the hop rate of solute He atoms in the W top layer, resulting in the significant He release from the W surface. The radius and density of He nano-bubbles calculated by our model are consistent with our experimental observation.
  • Elektrotechnik und Medientechnik
  • NACHHALTIG
Zeitschriftenartikel

  • Fabian Kühnel
  • Jonas Weber
  • Christoph Metzke
  • Günther Benstetter

Thermo reflectance imaging re-imagined. A low-cost alternative for determining thermal conductivity

In: Wiley Analytical Science

  • (2021)

The thermal conductivity of thin films plays a central role in the development of new microelectronic components. If the heat generated in such components cannot be properly dissipated, hot spots form which can lead to component failure. However, determining thermal conductivities, especially in thin films, involves some effort and cost. In the field of processor and graphics card development, manufacturers are engaged in a fierce race to bring the most powerful product onto the market. This requires ever smaller transistors. In the meantime, the production process required for this has reached a size of 2 nm [1]. With increasing miniaturisation, the power density increases and thus also the generated heat. If this heat cannot dissipate effectively, the component fails. This is a decisive reason why the investigation of the thermal conductivity of thin films is becoming increasingly important. For the investigation of thermal conductivity there are a variety of measuring methods, such as the laser-flash method, the Micro-Raman method, the Scanning Thermal Microscopy, the 3-Omega method or the thermo-reflectance imaging method. As different as all these methods are, they have one thing in common: they are extremely complex and require very expensive equipment.
  • IQMA
  • Elektrotechnik und Medientechnik
  • NACHHALTIG
Zeitschriftenartikel

  • H. Fan
  • C. Niu
  • X. Li
  • W. Liu
  • Y. Zhang
  • W. Ni
  • L. Liu
  • D. Liu
  • Günther Benstetter
  • G. Lei
  • J. Niu

W fuzz layers: very high resistance to sputtering under fusion-relevant He + irradiations

In: Plasma Science & Technology vol. 24 pg. 015601.

  • (2021)

DOI: 10.1088/2058-6272/ac35a2

In this study, we have modeled the sputtering process of energetic He+ ions colliding with W nano-fuzz materials, based on the physical processes, such as the collision and diffusion of energetic particles, sputtering and redeposition. Our modeling shows that the fuzzy nanomaterials with a large surface-to-volume ratio exhibit very high resistance to sputtering under fusion-relevant He+ irradiations, and their sputtering yields are mainly determined by the thickness of fuzzy nano-materials, the reflection coefficients and mean free paths of energetic particles, surface sputtering yields of a flat base material, and the geometry of nano-fuzz. Our measurements have confirmed that the surface sputtering yield of a W nano-fuzz layer with the columnar geometry of nano-fuzz in cross-section is about one magnitude of order lower than the one of smooth W substrates. This work provides a complete model for energetic particles colliding with the nano-fuzz layer and clarifies the fundamental sputtering process occurring in the nano-fuzz layer.
  • Elektrotechnik und Medientechnik
  • IQMA
  • NACHHALTIG
Zeitschriftenartikel

  • Y. Zhang
  • H. Fan
  • C. Niu
  • Y. Cui
  • W. Ni
  • W. Liu
  • Günther Benstetter
  • G. Lei
  • D. Liu

He nanobubble driven W surface growth during low-energy He ion irradiations

In: Journal of Nuclear Materials vol. 554 pg. 153073.

  • (2021)

DOI: 10.1016/j.jnucmat.2021.153073

By using scanning electron microscopy and atomic force microscopy, we observe the microscopic surface evolution of W crystals exposed to low-energy (50 eV) He+ irradiations at the temperature of 1050 K. We find that the He+ irradiation leads to the growth and emergence of nanoscale undulations over W (110), and the surface regions with less undulations are dominating the microscopic evolution of W crystals. Analysis shows that the thermodynamic instability of W crystals irradiated is attributed to the He nanobubble driven W surface growth, which has been confirmed by our experimental measurements and He reaction rate model in W. Our study will play a crucial role in understanding the growth process of undulating surface microstructures under fusion-relevant He+ irradiations.
  • Elektrotechnik und Medientechnik
  • IQMA
  • NACHHALTIG
Zeitschriftenartikel

  • X. Li
  • H. Fan
  • W. Liu
  • Y. Cui
  • C. Niu
  • W. Ni
  • Y. Zhang
  • S. Dai
  • Günther Benstetter
  • G. Lei
  • D. Liu

The heat flux and temperature distribution of W fuzz layers under fusion-relevant He/D ion irradiations

In: Journal of Nuclear Materials vol. 557 pg. 153319.

  • (2021)

DOI: 10.1016/j.jnucmat.2021.153319

The thermal diffusion of nanostructured W fuzz layers formed over W divertor targets due to fusion-relevant He+ irradiations remain unclear so far. By analyzing the collision process of energetic He+ and D+ ions in the fuzz layers, we have calculated the temperature distribution and heat flux of fuzz layers under low-energy (10–200 eV) and high-flux (1022–1025/m2⋅s) He+/D+ irradiations. Both the heat flux of fuzz layers and the temperature difference () between the top and bottom of fuzz layers are determined by the radius of W nanofibers, the thickness of fuzz layers, and the heat load over W targets. Our simulation predicts that under fusion-relevant He+/D+ irradiations at the energy of < 100 eV and the flux of < 1.0 × 1024/m2⋅s, is lower than 35 K when the heat load over the divertor varies in the range of < 10 MW/m2. Under the fusion-relevant He+/D+ irradiations, the heat flux of nanostructured fuzz layers is about 13–19% of the extremely high heat load over the W targets, indicating that the fuzz layers over W divertor targets can be very important for decreasing the extremely high heat load, such as type – I edge localized modes in the fusion device.
  • IQMA
  • Elektrotechnik und Medientechnik
  • NACHHALTIG
Zeitschriftenartikel

  • H. Fan
  • Y. Zhang
  • D. Liu
  • C. Niu
  • L. Liu
  • W. Ni
  • Y. Xia
  • Z. Bi
  • Günther Benstetter
  • G. Lei

Tensile stress-driven cracking of W fuzz over W crystal under fusion-relevant He ion irradiations

In: Nuclear Fusion vol. 60 pg. 046011.

  • (2020)

DOI: 10.1088/1741-4326/ab71bb

Although W fuzz is formed in the divertor region of the fusion reactor, no theory may clearly explain the W fuzz growth mechanism. In this study, we observe the growth process of W fuzz over W crystal under ITER-relevant He ion irradiations. We propose the tensile stress-driven cracking of nano-structured fuzz during the initial growth of W fuzz. We demonstrate that the existence of tensile stress is due to the swelling of He nano-bubbles in the fuzz. After this cracking, the W fuzz breaks away from the planar network and grows over the W surface, where the micro-stress in the W surface layer acts as the driving force.
  • Elektrotechnik und Medientechnik
  • IQMA
  • NACHHALTIG
Vortrag

  • Fabian Kühnel
  • Christoph Metzke
  • Günther Benstetter

Thermal conductivity measurements of thin films using 3ω method

In: 7. Tag der Forschung

Deggendorf

  • 23.07.2020 (2020)
  • IQMA
  • Elektrotechnik und Medientechnik
  • NACHHALTIG
Vortrag

  • Günther Benstetter
  • Christoph Metzke
  • Jonas Weber

Recent Trends in Characterization of Nanoelectronic Materials and Devices with Scanning Probe Microscopy . Invited Talk

In: NanoScientific Symposium China - Scanning Probe Microscopy (SPM)

Virtual Conference

  • 10.12.2020 (2020)
  • Elektrotechnik und Medientechnik
  • NACHHALTIG
Zeitschriftenartikel

  • W. Ni
  • L. Liu
  • Y. Zhang
  • C. Niu
  • H. Fan
  • G. Song
  • D. Liu
  • Günther Benstetter
  • G. Lei

Effect of intermittent He/D ion irradiations on W nano-fuzz growth over W targets

In: Vacuum vol. 173 pg. 109146.

  • (2020)

DOI: 10.1016/j.vacuum.2019.109146

The intermittent He/D ion irradiations of polycrystalline W have been performed at the ion energy of 50 eV by changing the time of the single irradiations and the irradiation temperature. All irradiated W specimens have been observed by scanning electron microscopy, and the effect of intermittent He/D ion irradiations on the W fuzz growth has been analyzed. The W fuzz growth over W targets does not show the clear dependence on the intermittent He/D ion irradiations, where the He/D ion fluence of the single irradiations typically varies from 5.0 × 1024 to 2.5 × 1025/m2. However, a slight change in the W surface temperature during the single He ion irradiations significantly affects the W fuzz growth rate. Analysis indicates that W fuzz growth is significantly affected by the total He ion fluence varying from 5.0 × 1024 to 5.0 × 1025/m2 and the irradiation temperature varying from 1100 to 1450 K. This current study will play a crucial role in understanding the W fuzz growth under the periodic He/D ion irradiations of W divertor in fusion reactors, such as ELMs.
  • IQMA
  • Elektrotechnik und Medientechnik
  • NACHHALTIG
Vortrag

  • Christoph Metzke
  • Fabian Kühnel
  • Günther Benstetter

Thermal characterization of thin films using FEM simulations

In: 7. Tag der Forschung

Deggendorf

  • 23.07.2020 (2020)
  • IQMA
  • Elektrotechnik und Medientechnik
  • NACHHALTIG
Zeitschriftenartikel

  • W. Ni
  • Y. Zhang
  • Y. Cui
  • C. Niu
  • L. Liu
  • H. Fan
  • Günther Benstetter
  • G. Lei
  • D. Liu

The effect of fusion-relevant He ion flux on the evolution of He nano-bubbles in W

In: Plasma Physics and Controlled Fusion vol. 62 pg. 065002.

  • (2020)

DOI: 10.1088/1361-6587/ab8242

Based on a He reaction rate model in W, we have analyzed the effect of fusion-relevant He+ flux on the evolution and surface bursting of He nano-bubbles in W. The concentrations of solute He atoms, trapped He atoms, and He nano-bubbles, and the radius of He nano-bubbles have been obtained as a function of depth, He+ dose, and He+ flux. He retentions in W are also calculated as the function of He+ dose and flux. Our modeling shows that the He+ flux varying from 5.0 × 1018 to 5.0 × 1024 m−2centerdots−1 significantly affects the concentration of solute He atoms diffusing in W and trapped He atoms, the evolution of He nano-bubbles, and He retention in W. Both the concentration and radius of He nano-bubbles in W show the dependence on He+ flux, and their surface bursting leads to an increase ($\Delta {A_{b - Burst}}$) in the W surface area, thus the growth of W nano-fuzz. When He+ flux increases 5.0 × 1018 to 5.0 × 1024m−2centerdots−1, the bursting rate of He nano-bubbles is greatly reduced, accompanied by an increase in $\Delta {A_{b - Burst}}$. However, $\Delta {A_{b - Burst}}$ is less dependent on the fusion-relevant He+ flux varying from 9.0 × 1020 to 1.6 × 1022m−2centerdots−1, which is consistent with the measured W nano-fuzz growth by He/D2 plasmas.
  • Elektrotechnik und Medientechnik
  • NACHHALTIG
Zeitschriftenartikel

  • Christoph Metzke
  • Werner Frammelsberger
  • Jonas Weber
  • Fabian Kühnel
  • K. Zhu
  • M. Lanza
  • Günther Benstetter

On the Limits of Scanning Thermal Microscopy of Ultrathin Films

In: Materials vol. 13 pg. 518.

  • (2020)

DOI: 10.3390/ma13030518

Heat transfer processes in micro- and nanoscale devices have become more and more important during the last decades. Scanning thermal microscopy (SThM) is an atomic force microscopy (AFM) based method for analyzing local thermal conductivities of layers with thicknesses in the range of several nm to µm. In this work, we investigate ultrathin films of hexagonal boron nitride (h-BN), copper iodide in zincblende structure (γ-CuI) and some test sample structures fabricated of silicon (Si) and silicon dioxide (SiO2) using SThM. Specifically, we analyze and discuss the influence of the sample topography, the touching angle between probe tip and sample, and the probe tip temperature on the acquired results. In essence, our findings indicate that SThM measurements include artefacts that are not associated with the thermal properties of the film under investigation. We discuss possible ways of influence, as well as the magnitudes involved. Furthermore, we suggest necessary measuring conditions that make qualitative SThM measurements of ultrathin films of h-BN with thicknesses at or below 23 nm possible.
  • Elektrotechnik und Medientechnik
  • IQMA
  • NACHHALTIG
Zeitschriftenartikel

  • L. Jiang
  • Jonas Weber
  • F. Puglisi
  • P. Pavan
  • L. Larcher
  • Werner Frammelsberger
  • Günther Benstetter
  • M. Lanza

Understanding Current Instabilities in Conductive Atomic Force Microscopy

In: Materials vol. 12 pg. E459.

  • (2019)

DOI: 10.3390/ma12030459

Conductive atomic force microscopy (CAFM) is one of the most powerful techniques in studying the electrical properties of various materials at the nanoscale. However, understanding current fluctuations within one study (due to degradation of the probe tips) and from one study to another (due to the use of probe tips with different characteristics), are still two major problems that may drive CAFM researchers to extract wrong conclusions. In this manuscript, these two issues are statistically analyzed by collecting experimental CAFM data and processing them using two different computational models. Our study indicates that: (i) before their complete degradation, CAFM tips show a stable state with degraded conductance, which is difficult to detect and it requires CAFM tip conductivity characterization before and after the CAFM experiments; and (ii) CAFM tips with low spring constants may unavoidably lead to the presence of a ~1.2 nm thick water film at the tip/sample junction, even if the maximum contact force allowed by the setup is applied. These two phenomena can easily drive CAFM users to overestimate the properties of the samples under test (e.g., oxide thickness). Our study can help researchers to better understand the current shifts that were observed during their CAFM experiments, as well as which probe tip to use and how it degrades. Ultimately, this work may contribute to enhancing the reliability of CAFM investigations.
  • Elektrotechnik und Medientechnik
  • IQMA
  • Maschinenbau und Mechatronik
  • NACHHALTIG
Beitrag (Sammelband oder Tagungsband)

  • Christoph Metzke
  • Günther Benstetter

Thermische Charakterisierung ultradünner Schichten

pg. 138-141.

Deggendorf

  • (2019)
  • IQMA
  • Elektrotechnik und Medientechnik
  • NACHHALTIG
Zeitschriftenartikel

  • L. Liu
  • S. Li
  • D. Liu
  • Günther Benstetter
  • O. Man
  • J. Michalicka
  • Y. Zhang
  • Y. Hong
  • H. Fan
  • W. Ni
  • Q. Yang
  • Y. Wu
  • Z. Bi

The effect of O2 impurity on surface morphology of polycrystalline W during low-energy and high-flux He+ irradiation

In: Fusion Engineering and Design vol. 139 pg. 96-103.

  • (2019)

DOI: 10.1016/j.fusengdes.2019.01.003

The interaction between the impurities (such as carbon, nitrogen, oxygen) and the plasma-facing materials (PFMs) can profoundly influence the performance and service of the PFMs. In this paper, we investigated the influence of oxygen (O2) impurity in the helium radio frequency (RF) plasma on the surface morphology of polycrystalline tungsten (W) irradiated at the surface temperature of 1450 ± 50 K and the ion energy of 100 eV. The pressure ratio of O2 to He (R) in RF source varied from 4.0 × 10−6 to 9.0 × 10-2. The total irradiation flux and fluence were ˜1.2 × 1022 ions·m-2·s-1 and ˜1.0 × 1026 ions·m-2, respectively. After He+ irradiation, the specimen surface morphology was observed by scanning electron microscopy. It was found that with increasing R from 4.0 × 10−6 to 9.0 × 10-2 the thickness of nano-fuzz layer at the W surface was thinner and thinner, accompanied by the formation of rod-like structures. The erosion yield increased from 5.2 × 10-4 to 2.3 × 10-2 W/ion when R varied from 4.0 × 10-6 to 9.0 × 10-2. The X-ray diffraction analysis shows that tungsten oxides were formed at the near surface of specimens when R exceeded 1.8 × 10-2. The erosion yield measurements revealed that in addition to surface physical sputtering process, the chemical erosion process could occur due to the interaction between oxygen-containing species and W at the surface. The results indicated that the presence of O2 impurity in He plasma can obviously affect the surface microstructure of W. The study suggested that O2 impurity can effectively reduce the growth of nano-fuzz structures.
  • IQMA
  • Elektrotechnik und Medientechnik
  • NACHHALTIG
Zeitschriftenartikel

  • C. Wen
  • X. Jing
  • F. Hitzel
  • C. Pan
  • Günther Benstetter
  • M. Lanza

In Situ Observation of Current Generation in ZnO Nanowire Based Nanogenerators Using a CAFM Integrated into an SEM

In: ACS Applied Materials & Interfaces vol. 11 pg. 15183-15188.

  • (2019)

DOI: 10.1021/acsami.9b00447

In this work, we monitor in situ the movement of ZnO piezoelectric nanowires by using a conductive atomic force microscope integrated into a scanning electron microscope. This setup allows seeing the bending of the nanowires and simultaneously measuring the currents generated. We conclude that the currents generated not only come from piezoelectric effect, but also from contact potential and triboelectric effect. These contributions have been ignored in all previous reports in this field, meaning that the power conversion efficiency of these devices may have been systematically overestimated. Our study helps to clarify the working mechanism of piezoelectric nanogenerators based on ZnO nanowires.
  • IQMA
  • Elektrotechnik und Medientechnik
  • NACHHALTIG
Vortrag

  • Christoph Metzke
  • Günther Benstetter
  • Werner Frammelsberger
  • Jonas Weber
  • Fabian Kühnel

Temperature dependent investigation of hexagonal boron nitride films using scanning thermal microscopy . Poster presentation

In: 6th Nano Today Conference 2019

NanoBio Lab Lisbon, Portugal

  • 16.-20.06.2019 (2019)
  • Elektrotechnik und Medientechnik
  • IQMA
  • NACHHALTIG
Zeitschriftenartikel

  • Z. Bi
  • D. Liu
  • Y. Zhang
  • L. Liu
  • Y. Xia
  • Y. Hong
  • H. Fan
  • Günther Benstetter
  • G. Lei
  • L. Yan

The evolution of He nanobubbles in tungsten under fusion-relevant He ion irradiation conditions

In: Nuclear Fusion vol. 59 pg. 086025.

  • (2019)

DOI: 10.1088/1741-4326/ab2472

He-induced W nanofuzz growth over the W divertor target is one of the main limiting factors affecting the current design and development of fusion reactors. In this paper, based on He reaction rate model in W, we simulate the growth and evolution of He nanobubbles during W nanofuzz formation under fusion-relevant He+ irradiation conditions. Our modeling unveils the existence of He nanobubble-enriched W surface layer (<10 nm), formed due to the He diffusion in W crystal into defect sites. At an elevated temperature, the growth of He bubbles in the W surface layer prevents He atoms diffusing into the deep layer (>10 nm). The formation of W nanofuzz at the surface is attributed to surface bursting of high-density He bubbles with their radius of ~4 nm, and an increase in the surface area of irradiated W. Our findings have been well confirmed by the experimental measurements.
  • IQMA
  • Elektrotechnik und Medientechnik
  • NACHHALTIG
Zeitschriftenartikel

  • W. Ni
  • L. Liu
  • Y. Zhang
  • H. Fan
  • G. Song
  • D. Liu
  • Günther Benstetter
  • G. Lei

Mass loss of pure W, W-Re alloys, and oxide dispersed W under ITER-relevant He ion irradiations

In: Journal of Nuclear Materials vol. 527 pg. 151800.

  • (2019)

DOI: 10.1016/j.jnucmat.2019.151800

In this study, polycrystalline W, W-Re alloys, and La2O3 and Y2O3 dispersion-strengthened W have been irradiated by our large-power materials irradiation experimental system (LP-MIES) at the irradiation temperature of 1360–1460 K. Our measurements show that the W nano-fuzz layer which is < 5.2 μm thick has been formed over all the specimens exposed to the low-energy (50 or 100 eV) and high-flux (1.37 × 1022–1.62 × 1022 ions/m2⋅s) He+ irradiations. The mass loss of the fuzz layer almost linearly increases with the He+ fluence, which does not show any dependence on the thickness of fuzz layer varying from 1.1 to 5.2 μm La2O3 and Y2O3 dispersions into W significantly suppress the growth of W fuzz, indicating that He diffusion and the evolution of He nano-bubbles in the near-surface can be significantly influenced due to the dispersion. After He+ (100 eV) irradiation at He+ fluence of 5.83 × 1026/m2, the mass loss of 0.1 vol% - 1.0 vol% La2O3-dispersed W is about 20% lower than the one of the pure W, and the La2O3 dispersed W exhibits the best erosion resistance among various W material grades. Our analysis indicates that both the surface sputtering of W fuzz by energetic ions and surface bursting of He nano-bubbles can be responsible for the mass loss of W under ITER-relevant He+ irradiations.
  • IQMA
  • Elektrotechnik und Medientechnik
  • NACHHALTIG
Vortrag

  • Tobias Berthold
  • Günther Benstetter
  • Werner Frammelsberger
  • Manuel Bogner
  • R. Rodríguez
  • M. Nafría

Protective nanometer films for reliable Cu-Cu connections . Invited Talk

In: IEEE International Reliability Physics Symposium (IRPS)

San Francisco, CA, USA

  • 11.-15.03.2018 (2018)
  • Elektrotechnik und Medientechnik
  • IQMA
  • NACHHALTIG
Vortrag

  • Christoph Metzke
  • W. Lehermeier
  • Günther Benstetter
  • Werner Frammelsberger

Evaluation of Topography effects of SThM Measurements on Thin Thermoelectric Films . Poster

In: 4th Ed. Smart Materials and Surfaces - SMS Conference 2018

Venedig, Italien

  • 23.-25.10.2018 (2018)
  • IQMA
  • Elektrotechnik und Medientechnik
  • NACHHALTIG
Zeitschriftenartikel

  • S. Chen
  • L. Jiang
  • M. Buckwell
  • X. Jing
  • Y. Ji
  • E. Grustan-Gutierrez
  • Günther Benstetter
  • F. Hui
  • Y. Shi
  • M. Rommel
  • A. Paskaleva
  • W. Ng
  • A. Mehonic
  • A. Kenyon
  • M. Lanza

On the Limits of Scalpel AFM for the 3D Electrical Characterization of Nanomaterials

In: Advanced Functional Materials vol. 28 pg. 1802266.

  • (2018)

DOI: 10.1002/adfm.201802266

Conductive atomic force microscopy (CAFM) has been widely used for electrical characterization of thin dielectrics by applying a gentle contact force that ensures a good electrical contact without inducing additional high‐pressure related phenomena (e.g., flexoelectricity, local heat, scratching). Recently, the CAFM has been used to obtain 3D electrical images of thin dielectrics by etching their surface. However, the effect of the high contact forces/pressures applied during the etching on the electrical properties of the materials has never been considered. By collecting cross‐sectional transmission electron microscopy images at the etched regions, it is shown here that the etching process can modify the morphology of Al2O3 thin films (producing phase change, generation of defects, and metal penetration). It is also observed that this technique severely modifies the electrical properties of pSi and TiO2 wafers during the etching, and several behaviors ignored in previous studies, including i) observation of high currents in the absence of bias, ii) instabilities of etching rate, and iii) degradation of CAFM tips, are reported. Overall, this work should contribute to understand better the limitations of this technique and disseminate it among those applications in which it can be really useful.
  • Elektrotechnik und Medientechnik
  • IQMA
  • NACHHALTIG
Vortrag

  • D. Liu
  • H. Fan
  • L. Liu
  • Y. You
  • Günther Benstetter
  • F. Zhang

Surface diffusion and growth of W self-interstitials during low-energy and large-flux H/He ion irridiations of polycrystalline W

In: International Conference on Plasma Surface Interactions in Controlled Fusion Devices

Princeton University, NJ, USA

  • 17.-22.06.2018 (2018)
  • Elektrotechnik und Medientechnik
  • IQMA
  • NACHHALTIG
Vortrag

  • Manuel Bogner
  • C. Yang
  • Günther Benstetter
  • Y. Fu
  • M. Grundmann

Nanoscale thermal properties of next generation transparent/flexible thermoelectric copper iodide films . Posterpräsentation

In: 5. Tag der Forschung

Technische Hochschule Deggendorf Deggendorf

  • 08.03.2018 (2018)
  • IQMA
  • Elektrotechnik und Medientechnik
Vortrag

  • Günther Benstetter
  • Christoph Metzke
  • W. Lehermeier

Advances in Electrical and Thermal Characterization of Surfaces and Thin Films . Invited Talk

In: 4th Ed. Smart Materials and Surfaces - SMS Conference 2018

Venedig, Italien

  • 23.-25.10.2018 (2018)
  • Elektrotechnik und Medientechnik
  • IQMA
  • NACHHALTIG
Zeitschriftenartikel

  • L. Liu
  • S. Li
  • D. Liu
  • Günther Benstetter
  • Y. Zhang
  • Y. Hong
  • H. Fan
  • W. Ni
  • Q. Yang
  • Y. Wu
  • Z. Bi

Surface damages of polycrystalline W and La2O3-doped W induced by high-flux He plasma irradiation

In: Journal of Nuclear Materials vol. 501 pg. 275-281.

  • (2018)

In this study, polycrystalline tungsten (W) and three oxide dispersed strengthened W with 0.1 vol %, 1.0 vol % and 5.0 vol % lanthanum trioxide (La2O3) were irradiated with low-energy (200 eV) and high-flux (5.8 × 1021 or 1.4 × 1022 ions/m2⋅s) He+ ions at elevated temperature. After He+ irradiation at a fluence of 3.0 × 1025/m2, their surface damages were observed by scanning electron microscopy, energy dispersive spectroscopy, scanning electron microscopy-electron backscatter diffraction, and conductive atomic force microscopy. Micron-sized holes were formed on the surface of W alloys after He+ irradiation at 1100 K. Analysis shows that the La2O3 grains doped in W were sputtered preferentially by the high-flux He+ ions when compared with the W grains. For irradiation at 1550 K, W nano-fuzz was formed at the surfaces of both polycrystalline W and La2O3-doped W. The thickness of the fuzz layers formed at the surface of La2O3-doped W is 40% lower than the one of polycrystalline W. The presence of La2O3 could suppress the diffusion and coalescence of He atoms inside W, which plays an important role in the growth of nanostructures fuzz.
  • IQMA
  • Elektrotechnik und Medientechnik
  • NACHHALTIG
Zeitschriftenartikel

  • Tobias Berthold
  • Günther Benstetter
  • Werner Frammelsberger
  • Manuel Bogner
  • R. Rodríguez
  • M. Nafría

Protective nanometer films for reliable Cu-Cu connections

In: Microelectronics Reliability vol. 76-77 pg. 383-389.

  • (2017)

DOI: 10.1016/j.microrel.2017.07.001

  • Maschinenbau und Mechatronik
  • IQMA
  • Elektrotechnik und Medientechnik
  • NACHHALTIG
Beitrag (Sammelband oder Tagungsband)

  • Günther Benstetter
  • Alexander Hofer
  • D. Liu
  • Werner Frammelsberger
  • M. Lanza

Chapter 3: Fundamentals of CAFM Operation Modes

pg. 45-78.

Weinheim

  • (2017)
  • Elektrotechnik und Medientechnik
  • IQMA
  • Maschinenbau und Mechatronik
  • NACHHALTIG
Zeitschriftenartikel

  • C. Yang
  • D. Souchay
  • M. Kneiß
  • Manuel Bogner
  • H. Wei
  • M. Lorenz
  • O. Oeckler
  • Günther Benstetter
  • Y. Fu
  • M. Grundmann

Transparent flexible thermoelectric material based on non-toxic earth-abundant p-type copper iodide thin film

In: nature COMMUNICATIONS pg. 1-7.

  • (2017)

DOI: 10.1038/ncomms16076

Thermoelectric devices that are flexible and optically transparent hold unique promise for future electronics. However, development of invisible thermoelectric elements is hindered by the lack of p-type transparent thermoelectric materials. Here we present the superior room-temperature thermoelectric performance of p-type transparent copper iodide (CuI) thin films. Large Seebeck coefficients and power factors of the obtained CuI thin films are analysed based on a single-band model. The low-thermal conductivity of the CuI films is attributed to a combined effect of the heavy element iodine and strong phonon scattering. Accordingly, we achieve a large thermoelectric figure of merit of ZT=0.21 at 300 K for the CuI films, which is three orders of magnitude higher compared with state-of-the-art p-type transparent materials. A transparent and flexible CuI-based thermoelectric element is demonstrated. Our findings open a path for multifunctional technologies combing transparent electronics, flexible electronics and thermoelectricity.
  • Elektrotechnik und Medientechnik
  • IQMA
  • NACHHALTIG
Zeitschriftenartikel

  • Tobias Berthold
  • Günther Benstetter
  • Werner Frammelsberger
  • R. Rodríguez
  • M. Nafría

Numerical Study of Hydrodynamic Forces for AFM Operations in Liquid Scanning (Article ID 6286595, 12 pages)

In: Scanning pg. 1-12.

  • (2017)

DOI: 10.1155/2017/6286595

For advanced atomic force microscopy (AFM) investigation of chemical surface modifications or very soft organic sample surfaces, the AFM probe tip needs to be operated in a liquid environment because any attractive or repulsive forces influenced by the measurement environment could obscure molecular forces. Due to fluid properties, the mechanical behavior of the AFM cantilever is influenced by the hydrodynamic drag force due to viscous friction with the liquid. This study provides a numerical model based on computational fluid dynamics (CFD) and investigates the hydrodynamic drag forces for different cantilever geometries and varying fluid conditions for Peakforce Tapping (PFT) in liquids. The developed model was verified by comparing the predicted values with published results of other researchers and the findings confirmed that drag force dependence on tip speed is essentially linear in nature. We observed that triangular cantilever geometry provides significant lower drag forces than rectangular geometry and that short cantilever offers reduced flow resistance. The influence of different liquids such as ultrapure water or an ethanol-water mixture as well as a temperature induced variation of the drag force could be demonstrated. The acting forces are lowest in ultrapure water, whereas with increasing ethanol concentrations the drag forces increase.
  • Maschinenbau und Mechatronik
  • IQMA
  • Elektrotechnik und Medientechnik
  • NACHHALTIG
Vortrag

  • Manuel Bogner
  • C. Yang
  • Günther Benstetter
  • Y. Fu
  • M. Grundmann

Nanoscale thermal properties of next generation transparent/flexible thermoelectric copper iodide films . Posterpräsentation

In: 5th Nano Today Conference

Hawaii, USA

  • 06.-10.12.2017 (2017)
  • IQMA
  • Elektrotechnik und Medientechnik
Beitrag (Sammelband oder Tagungsband)

  • Tobias Berthold
  • Günther Benstetter
  • Werner Frammelsberger
  • Manuel Bogner
  • R. Rodríguez
  • M. Nafría

Protective nanometer films for reliable Cu-Cu connections . Best Paper Award

  • (2017)
  • IQMA
  • Maschinenbau und Mechatronik
  • Elektrotechnik und Medientechnik
  • NACHHALTIG
Zeitschriftenartikel

  • H. Fan
  • Y. You
  • W. Ni
  • Q. Yang
  • L. Liu
  • Günther Benstetter
  • D. Liu
  • C. Liu

Surface degeneration of W crystal irradiated with low-energy hydrogen ions

In: Scientific Reports (Nature Publishing Group) vol. 6

  • (2016)

DOI: 10.1038/srep23738

The damage layer of a W (100) crystal irradiated with 120 eV hydrogen ions at a fluence of up to 1.5 × 1025/m2 was investigated by scanning electron microscopy and conductive atomic force microscopy (CAFM). The periodic surface degeneration of the W crystal at a surface temperature of 373 K was formed at increasing hydrogen fluence. Observations by CCD camera and CAFM indicate the existence of ultrathin surface layers due to low-energy H irradiation. The W surface layer can contain a high density of nanometer-sized defects, resulting in the thermal instability of W atoms in the surface layer. Our findings suggest that the periodic surface degeneration of the W crystal can be ascribed to the lateral erosion of W surface layers falling off during the low-energy hydrogen irradiation. Our density functional theory calculations confirm the thermal instability of W atoms in the top layer, especially if H atoms are adsorbed on the surface.
  • IQMA
  • Elektrotechnik und Medientechnik
  • NACHHALTIG
Zeitschriftenartikel

  • L. Liu
  • D. Liu
  • Y. Hong
  • H. Fan
  • W. Ni
  • Q. Yang
  • Z. Bi
  • Günther Benstetter
  • S. Li

High-flux He+ irradiation effects on surface damages of tungsten under ITER relevant conditions

In: Journal of Nuclear Materials vol. 471 pg. 1-7.

  • (2016)

DOI: 10.1016/j.jnucmat.2016.01.001

A large-power inductively coupled plasma source was designed to perform the continuous helium ions (He+) irradiations of polycrystalline tungsten (W) under International Thermonuclear Experimental Reactor (ITER) relevant conditions. He+ irradiations were performed at He+ fluxes of 2.3 × 1021–1.6 × 1022/m2 s and He+ energies of 12–220 eV. Surface damages and microstructures of irradiated W were observed by scanning electron microscopy. This study showed the growth of nano-fuzzes with their lengths of 1.3–2.0 μm at He+ energies of >70 eV or He+ fluxes of >1.3 × 1022/m2 s. Nanometer-sized defects or columnar microstructures were formed in W surface layer due to low-energy He+ irradiations at an elevated temperature (>1300 K). The diffusion and coalescence of He atoms in W surface layers led to the growth and structures of nano-fuzzes. This study indicated that a reduction of He+ energy below 12–30 eV may greatly decrease the surface damage of tungsten diverter in the fusion reactor.
  • Elektrotechnik und Medientechnik
  • IQMA
  • NACHHALTIG
Zeitschriftenartikel

  • Y. Ji
  • H. Fei
  • Y. Shi
  • V. Iglesias
  • D. Lewis
  • N. Jiebin
  • S. Long
  • M. Liu
  • Alexander Hofer
  • Werner Frammelsberger
  • Günther Benstetter
  • A. Scheuermann
  • P. McIntyre
  • M. Lanza

Characterization of the photocurrents generated by the laser of atomic force microscopes

In: Review of Scientific Instruments vol. 87 pg. 083703.

  • (2016)

DOI: 10.1063/1.4960597

The conductive atomic force microscope (CAFM) has become an essential tool for the nanoscale electronic characterization of many materials and devices. When studying photoactive samples, the laser used by the CAFM to detect the deflection of the cantilever can generate photocurrents that perturb the current signals collected, leading to unreliable characterization. In metal-coated semiconductor samples, this problem is further aggravated, and large currents above the nanometer range can be observed even without the application of any bias. Here we present the first characterization of the photocurrents introduced by the laser of the CAFM, and we quantify the amount of light arriving to the surface of the sample. The mechanisms for current collection when placing the CAFM tip on metal-coated photoactive samples are also analyzed in-depth. Finally, we successfully avoided the laser-induced perturbations using a two pass technique: the first scan collects the topography (laser ON) and the second collects the current (laser OFF). We also demonstrate that CAFMs without a laser (using a tuning fork for detecting the deflection of the tip) do not have this problem.
  • IQMA
  • Elektrotechnik und Medientechnik
  • NACHHALTIG
Zeitschriftenartikel

  • X. Jing
  • Emanuel Panholzer
  • X. Song
  • E. Grustan-Gutierrez
  • F. Hui
  • Y. Shi
  • Günther Benstetter
  • Y. Illarionov
  • T. Grasser
  • M. Lanza

Fabrication of scalable and ultra low power photodetectors with high light/dark current ratios using polycrystalline monolayer MoS2 sheets

In: Nano Energy vol. 30 pg. 494-502.

  • (2016)

DOI: 10.1016/j.nanoen.2016.10.032

  • IQMA
  • Elektrotechnik und Medientechnik
  • NACHHALTIG
Vortrag

  • Alexander Hofer
  • Tobias Berthold
  • A. Greppmair
  • M. Brandt
  • Günther Benstetter

Nanoscale electrical conductivity of laser-sintered Ge nanoparticle layers

In: The 8th International Conference On Technological Advances Of Thin Films and Surface Coatings (ThinFilms 2016)

Singapur, Singapur

  • 12.-15.07.2016 (2016)
  • Elektrotechnik und Medientechnik
  • IQMA
Vortrag

  • Alexander Hofer
  • Tobias Berthold
  • A. Greppmair
  • Günther Benstetter
  • M. Brandt

Nanoscale characterization of laser-sintered Ge nanoparticle layers

In: 2nd International Conference on Functional Integrated nano Systems (nanoFIS)

Graz, Österreich

  • 27.-29.06.2016 (2016)
  • IQMA
  • Elektrotechnik und Medientechnik
Zeitschriftenartikel

  • Tobias Berthold
  • Günther Benstetter
  • Werner Frammelsberger
  • R. Rodríguez
  • M. Nafría

Nanoscale characterization of copper oxide films by Kelvin Probe Force Microscopy

In: Thin Solid Films vol. 584 pg. 310-315.

  • (2015)

DOI: 10.1016/j.tsf.2015.01.071

In this work Peakforce Kelvin Probe Force Microscopy (PF-KPFM) at ambient environment is used to characterize both oxidation states of copper (Cu) surfaces, cupric oxide CuO and cuprous oxide Cu2O, with high lateral resolution. Characteristic values of the contact potential difference were obtained for the copper oxide states. By this means, PF-KPFM measurements enabled to distinguish between the different types of Cu oxide with nanometer resolution and to correlate the oxidation states to local topography features. It was even possible to identify single oxide grains on top of the Cu surface. As a result, PF-KPFM is able to address the needs for nanoscale characterization methods in semiconductor manufacturing or other related technologies where the local oxidation behavior of copper is a critical issue.
  • IQMA
  • Elektrotechnik und Medientechnik
  • NACHHALTIG
Zeitschriftenartikel

  • Tobias Berthold
  • Günther Benstetter
  • Werner Frammelsberger
  • R. Rodríguez
  • M. Nafría

Nanoscale characterization of CH3-terminated Self-Assembled Monolayer on copper by advanced scanning probe microscopy techniques

In: Applied Surface Science vol. 356 pg. 921-926.

  • (2015)

DOI: 10.1016/j.apsusc.2015.08.182

In this study, we used Self-Assembled Monolayer (SAM) with CH3 end-group molecules to protect copper surfaces from oxidation and investigated at nanometer scale the integrity and temperature stability of the protective film. The films were characterized by dynamic Chemical Force Microscopy (dCFM), Torsional Resonance Tunneling Atomic Force Microscopy (TR-TUNA) and Attenuated Total Reflection Fourier Transform Infrared Spectroscopy (ATR-FTIR). We observed that temperature stress degraded local properties of our SAM films significantly, when compared to unstressed films. After temperature stress at 100 °C, tunneling current increased and hydrophobicity decreased substantially. In combination with the ATR-FTIR results we assigned local high current spots and local hydrophobic variations to cuprous oxide (Cu2O). After temperature stress at 150 °C, the measurements indicate a decomposition of the SAM film and a further oxidation of the copper surface. In addition, the results show that dynamic dCFM and TR-TUNA are appropriate tools to characterize SAM films structurally, chemically and electrically. Most important, in contrast to conventional contact mode Atomic Force Microscopy techniques, we did not observe any damage to the SAM film by dCFM and TR-TUNA measurements.
  • IQMA
  • Elektrotechnik und Medientechnik
  • NACHHALTIG
Zeitschriftenartikel

  • W. Ni
  • Q. Yang
  • H. Fan
  • L. Liu
  • Tobias Berthold
  • Günther Benstetter
  • D. Liu

Ordered arrangement of irradiation-induced defects of polycrystalline tungsten irradiated with low-energy hydrogen ions

In: Journal of Nuclear Materials vol. 464 pg. 216-220.

  • (2015)

  • IQMA
  • Elektrotechnik und Medientechnik
  • NACHHALTIG
Vortrag

  • K. Schiebl
  • Alexander Hofer
  • Günther Benstetter

Atomic Force Microscopy analysis of laser-sintered Germanium nanoparticles for thermoelectric applications

In: 3rd International Congress on Energy Efficiency and Energy Related Materials (ENEFM)

Oludeniz, Türkei

  • 19.-23.10.2015 (2015)
  • Elektrotechnik und Medientechnik
  • IQMA
  • NACHHALTIG
Vortrag

  • Günther Benstetter
  • Alexander Hofer
  • A. Greppmair
  • M. Brandt

A review of physical characterization methods for nanostructured thermoelectric materials . Invited Talk

In: 3rd International Congress on Energy Efficiency and Energy Related Materials (ENEFM)

Oludeniz, Türkei

  • 19.-23.10.2015 (2015)
  • IQMA
  • Elektrotechnik und Medientechnik
  • NACHHALTIG
Zeitschriftenartikel

  • Manuel Bogner
  • Alexander Hofer
  • Günther Benstetter
  • H. Gruber
  • R.Y.Q. Fu

Differential 3ω method for measuring thermal conductivity of AIN and SI3N4 thin films

In: Thin Solid Films vol. 591 Part B pg. 267-270.

  • (2015)

DOI: 10.1016/j.tsf.2015.03.031

The thermal conductivity λ of plasma enhanced chemical vapor deposited Si3N4 and sputtered AlN thin films deposited on silicon substrates were obtained utilizing the differential 3ω method. A thin electrically conductive strip was deposited onto the investigated thin film of interest, and used as both a heater and a temperature sensor. To study the thickness dependent thermal conductivity of AlN and Si3N4 films their thickness was varied from 300 to 1000 nm. Measurements were performed at room temperature at a chamber pressure of 3.1 Pa. The measured thermal conductivity values of AlN and Si3N4 thin films were between 5.4 and 17.6 Wm− 1 K− 1 and 0.8 up to 1.7 Wm− 1 K− 1, respectively. The data were significantly smaller than that of the bulk materials found in literature (i.e., λAlN = 250–285 Wm− 1 K− 1, λSi3N4 = 30 Wm− 1 K− 1), due to the scaling effects, and also strongly dependent on film thickness, but were comparable with literature for the corresponding thin films.
  • IQMA
  • Elektrotechnik und Medientechnik
  • NACHHALTIG
Zeitschriftenartikel

  • Q. Yang
  • Y.-W. You
  • L. Liu
  • H. Fan
  • W. Ni
  • D. Liu
  • C. Liu
  • Günther Benstetter
  • Y. Wang

Nanostructured fuzz growth on tungsten under low-energy and high-flux He irradiation

In: Scientific Reports (Nature Publishing Group) vol. 5 pg. 1-9.

  • (2015)

DOI: 10.1038/srep10959

  • IQMA
  • Elektrotechnik und Medientechnik
  • NACHHALTIG
Zeitschriftenartikel

  • Q. Yang
  • H. Fan
  • W. Ni
  • L. Liu
  • Tobias Berthold
  • Günther Benstetter
  • D. Liu
  • Y. Wang

Observation of interstitial loops in He+ irradiated W by conductive atomic force microscopy

In: Acta Materialia vol. 92 pg. 178-188.

  • (2015)

  • IQMA
  • Elektrotechnik und Medientechnik
  • NACHHALTIG
Zeitschriftenartikel

  • L. Hamann
  • Günther Benstetter
  • Alexander Hofer
  • M. Mattheis
  • M. Haas
  • R. Zapf-Gottwick

Use of Coated-Metal Particles in Rear Busbar Pastes to Reduce Silver Consumption

In: IEEE Journal of Photovoltaics vol. 5 pg. 534-537.

  • (2015)

DOI: 10.1109/JPHOTOV.2014.2388080

Reducing the amount of silver is one of the most important ways to reduce the cost of photovoltaic cells. The common way to reduce silver consumption on a cell is the reduction of the metal content in the paste. We present a new paste with silver-coated nickel particles, reducing the silver amount and still keeping the properties of silver related to oxidation and sintering. This paper shows the limits in conductivity due to porosity and oxidation of coated-metal particle pastes in comparison with silver pastes. Simulations and cell tests show that coated-metal particle pastes reduce silver consumption without decreasing the cell efficiency replacing busbar pastes. Coated-metal particle pastes are able to decrease silver consumption for rear-side busbars to c Ag <; 1.4 mg/cm 2 , leading to a conductivity σ BB = 1.110 5 S/cm, without decreasing cell or module efficiency. The conductivity of coated-metal particle pastes is too low using pastes with coated-metal particles as a replacement for the metallization paste for grid fingers but good enough to replace the silver paste for busbars with a cheap alternative.
  • Elektrotechnik und Medientechnik
  • IQMA
  • NACHHALTIG
Vortrag

  • Manuel Bogner
  • Günther Benstetter
  • Alexander Hofer
  • H. Gruber

The differential 3ω method for measuring the thermal conductivity of AIN and SI3N4 thin films

In: 16th International Conference on Thin Films (ICTF16)

Dubrovnik, Kroatien

  • 13.-16.10.2014 (2014)
  • IQMA
  • Elektrotechnik und Medientechnik
Vortrag

  • Tobias Berthold
  • Günther Benstetter
  • Werner Frammelsberger
  • R. Rodríguez
  • M. Nafría

Nanoscale copper oxide characterization with Kelvin Probe Force Microscopy . Posterpräsentation

In: The 7th International Conference on Technological Advances of Thin Films & Surface Coatings (THINFILMS2014)

Chongquing, China

  • 15.-18.07.2014 (2014)
  • Maschinenbau und Mechatronik
  • Elektrotechnik und Medientechnik
  • IQMA
Vortrag

  • Tobias Berthold
  • Günther Benstetter
  • Werner Frammelsberger
  • R. Rodríguez
  • M. Nafría

Characterization of Self-Assembled Monolayers on Copper by Scanning Probe Microscopy

In: 16th International Conference on Thin Films (ICTF16)

Dubrovnik, Kroatien

  • 13.-16.10.2014 (2014)
  • Elektrotechnik und Medientechnik
  • Maschinenbau und Mechatronik
  • IQMA
Vortrag

  • Günther Benstetter
  • Alexander Hofer
  • Tobias Berthold

Selected Atomic Force Microscopy Methods for the Electrical Characterization of Thin Films and Devices . Invited Talk

In: 4th International Advances in Applied Physics and Materials Science Congress & Exhibition (APMAS)

Fethiye, Türkei

  • 24.-27.04.2014 (2014)
  • Elektrotechnik und Medientechnik
  • IQMA
Zeitschriftenartikel

  • Alexander Hofer
  • R. Biberger
  • Günther Benstetter
  • B. Wilke
  • H. Göbel

Scanning probe microscopy based electrical characterization of thin dielectric and organic semiconductor films

In: Microelectronics Reliability vol. 53 pg. 1430-1433.

  • (2013)

Scanning probe microscopy (SPM) techniques offer various characterization methods for thin organic films. However, the majority of the electrical SPM measurements is currently performed in contact mode operation and may lead to severe damage at the surface of soft organic materials. This work shows the electrical characterization of organic insulator and semiconductor films by use of two SPM techniques operating with reduced lateral forces between SPM tip and sample. The first one is intermittent-contact scanning-capacitance-microscopy (IC-SCM) which is used for the detection of the local surface capacitance. The second one is torsional resonance tunneling-atomic-force-microscopy (TR-TUNA) which shows the local conductivity respectively relative film thickness of the sample. It is found that the tunneling current distribution across 50 nm thick organic insulating films is very homogeneous and that inhomogeneities in P3HT and Pentacene films can be pinpointed even if no topographical variations are observable.
  • IQMA
  • Elektrotechnik und Medientechnik
Vortrag

  • Alexander Hofer
  • R. Biberger
  • Günther Benstetter
  • B. Wilke
  • H. Göbel

Scanning probe microscopy based electrical characterization of thin dielectric and organic semiconductor films

In: 24th European Symposium on Reliability of Electron Devices, Failure Physics and Analysis (ESREF)

Arcachon, Frankreich

  • 30.09.-04.10.2013 (2013)
  • IQMA
  • Elektrotechnik und Medientechnik
Beitrag (Sammelband oder Tagungsband)

  • Günther Benstetter
  • Werner Frammelsberger

Raster-Sonden-Mikroskopie . Analyseverfahren für die Halbleiterelektronik

In: Elektrotechnik und Elektronik in Bayern. Sonderteil Sensorik (Zukunftstechnologien in Bayern) pg. 10-16.

München

  • (2013)
  • Elektrotechnik und Medientechnik
  • Maschinenbau und Mechatronik
  • IQMA
Zeitschriftenartikel

  • Alexander Hofer
  • Günther Benstetter
  • R. Biberger
  • C. Leirer
  • G. Brüderl

Analysis of crystal defects on GaN based semiconductors with advanced scanning probe microscope technique

In: Thin Solid Films vol. 544 pg. 139-143.

  • (2013)

The correlation of surface pits with leakage currents in gallium nitride (GaN) films are studied with scanning probe microscopy (SPM) techniques. The analyses were performed at both single n-GaN films grown on free-standing GaN and completely processed GaN light-emitting diode (LED) structures on sapphire substrates both grown by metal organic chemical vapor phase epitaxy. Topographical SPM images acquired with ultra-sharp probes were superimposed with current maps obtained by conductive atomic force microscopy (CAFM). The applicability of two different modifications of CAFM techniques has been studied. For both sample types, CAFM has revealed a clear correlation between forward-bias leakage current and locations of surface pits. In case of the LED structure, additional local current–voltage characteristics show that enhanced current conduction occurs in both forward and reverse bias on surface pit positions.
  • IQMA
  • Elektrotechnik und Medientechnik
Vortrag

  • Manuel Bogner
  • Günther Benstetter

Determining the thermal conductivity of thin layers with the macroscopic 3ω method

In: Applied Research Conference (ARC)

Technische Hochschule Deggendorf Deggendorf

  • 17.-18.10.2013 (2013)
  • Elektrotechnik und Medientechnik
  • IQMA
Vortrag

  • Tobias Berthold
  • Günther Benstetter
  • Werner Frammelsberger
  • R. Rodríguez
  • M. Nafría
  • Raimund Förg

Analysis of copper oxide films by combined scanning microscopy

In: 6th International Conference on Technological Advances of Thin Films & Surface Coatings (THINFILMS2012)

Singapur, Singapur

  • 14.-17.07.2012 (2012)
  • IQMA
  • Elektrotechnik und Medientechnik
  • Maschinenbau und Mechatronik
Vortrag

  • Alexander Hofer
  • Günther Benstetter
  • R. Biberger
  • C. Leirer
  • G. Brüderl

Analysis of crystal defects on GaN-based semiconductors with advanced scanning probe microscope techniques . Invited Talk

In: 6th International Conference on Technological Advances of Thin Films & Surface Coatings (THINFILMS2012)

Singapur, Singapur

  • 14.-17.07.2012 (2012)
  • Elektrotechnik und Medientechnik
  • IQMA
Vortrag

  • S. Rogowsky
  • R. Ostendorf
  • G. Kaufel
  • W. Pletschen
  • J. Wagner
  • S. Liebich
  • M. Zimprich
  • K. Volz
  • W. Stolz
  • B. Kunert
  • Edgar Lodermeier
  • Heiko Ranzinger
  • Günther Benstetter

Characteristics of diode laser structures on silicon substrates based on the Ga(NAsP)/(BGa)(AsP) materials combination

In: Photonics West

San Francisco, CA, USA

  • Januar 2012 (2012)
  • IQMA
  • Elektrotechnik und Medientechnik
Zeitschriftenartikel

  • V. Iglesias
  • M. Lanza
  • K. Zhang
  • A. Bayerl
  • M. Porti
  • M. Nafría
  • X. Aymerich
  • Günther Benstetter
  • Z. Shen
  • G. Bersuker

Degradation of polycrystalline HfO2 based gate dielectrics under nanoscale electrical stress

In: Applied Physics Letters vol. 99 pg. 103510.

  • (2011)

The evolution of the electrical properties of HfO2/SiO2/Si dielectric stacks under electrical stress has been investigated using atomic force microscope-based techniques. The current through the grain boundaries (GBs), which is found to be higher than thorough the grains, is correlated to a higher density of positively charged defects at the GBs. Electrical stress produces different degradation kinetics in the grains and GBs, with a much shorter time to breakdown in the latter, indicating that GBs facilitate dielectric breakdown in high-k gate stacks.
  • Elektrotechnik und Medientechnik
  • IQMA
Zeitschriftenartikel

  • A. Bayerl
  • M. Lanza
  • M. Porti
  • M. Nafría
  • X. Aymerich
  • F. Campabadal
  • Günther Benstetter

Nanoscale and Device Level Gate Conduction Variability of High-k Dielectrics-Based Metal-Oxide-Semiconductor Structures

In: IEEE Transactions on Device and Materials Reliability vol. 11 pg. 495-501.

  • (2011)

DOI: 10.1109/TDMR.2011.2161087

The polycrystalline microstructure of the high-k dielectric of gate stacks in metal-oxide-semiconductor (MOS) devices can be a potential source of variability. In this paper, a conductive atomic force microscope (CAFM) and a Kelvin probe force microscope (KPFM) have been used to investigate how the thickness and the crystallization (after a thermal annealing) of the high-k layer affect the nanoscale morphological and electrical properties of the gate stack. The impact of such nanoscale properties on the reliability and variability of the global gate electrical characteristics of fully processed MOS devices has also been investigated.
  • Elektrotechnik und Medientechnik
  • IQMA
Vortrag

  • Günther Benstetter

New Trends in Electrical Scanning Probe Microscopy Techniques for Device and Thin Film Characterization

Beijing University Peking, China

  • 17.11.2011 (2011)
  • Elektrotechnik und Medientechnik
  • IQMA
Zeitschriftenartikel

  • A. Bayerl
  • M. Lanza
  • M. Porti
  • F. Campabadal
  • M. Nafría
  • X. Aymerich
  • Günther Benstetter

Reliability and gate conduction variability of HfO2-based MOS devices: A combined nanoscale and device level study

In: Microelectronic Engineering vol. 88 pg. 1334-1337.

  • (2011)

The electrical properties and reliability of MOS devices based on high-k dielectrics can be affected when the gate stack is subjected to an annealing process, which can lead to the polycrystallization of the high-k layer. In this work, a Conductive Atomic Force Microscope (C-AFM) has been used to study the nanoscale electrical conduction and reliability of amorphous and polycrystalline HfO2 based gate stacks. The link between the nanoscale properties and the reliability and gate conduction variability of fully processed MOS devices has also been investigated.
  • IQMA
  • Elektrotechnik und Medientechnik
Vortrag

  • Günther Benstetter

Novel Scanning Capacitance Microscopy Techniques for Device and Thin Film Characterization

Dalian Nationalities University Dalian, China

  • 16.11.2011 (2011)
  • Elektrotechnik und Medientechnik
  • IQMA
Zeitschriftenartikel

  • M. Lanza
  • M. Porti
  • M. Nafría
  • X. Aymerich
  • Günther Benstetter
  • Edgar Lodermeier
  • Heiko Ranzinger
  • G. Jaschke
  • S. Teichert
  • L. Wilde
  • P. Michalowski

Conductivity and Charge Trapping After Electrical Stress in Amorphous and Polycrystalline Al2O3-Based Devices Studied With AFM-Related Techniques

In: IEEE Transactions on Nanotechnology vol. 10 pg. 344-351.

  • (2011)

In this paper, atomic force microscopy-based techniques have been used to study, at nanoscale, the dependence of the electrical properties of Al2O3 stacks for flash memories on the annealing temperature (T-A). The electrical characterization has been combined with other techniques (for example, transmission electron microscopy) that have allowed to investigate the dependence of the stack crystallization and the Si diffusion from the substrate to the gate oxide on T-A. The combination of both the analyses has allowed to explore if there is a relation between the percentage of diffused silicon and material crystallization with the conductivity and charge trapping of Al2O3 stacks.
  • IQMA
  • Elektrotechnik und Medientechnik
Vortrag

  • Alexander Hofer
  • B. Wilke
  • R. Biberger
  • Günther Benstetter
  • H. Göbel

Capacitance and Conductivity Mapping of Organic Films and Devices with Non-Contact SPM Methods

In: International Workshop on Scanning Probe Microscopy for Energy Applications

Max Planck Institute for Polymer Research Mainz

  • Juni 2011 (2011)
  • Elektrotechnik und Medientechnik
  • IQMA
Vortrag

  • R. Biberger
  • Günther Benstetter

Displacement Current Sensor for two-dimensional dopant profiling

In: ITG Discussion

Grainau

  • Mai 2010 (2010)
  • Elektrotechnik und Medientechnik
  • IQMA
Patent

  • Günther Benstetter
  • et al.

Method and apparatus for two-dimensional profiling of doping profiles of a material sample with scanning capacitance microscope

  • (2010)
  • IQMA
  • Elektrotechnik und Medientechnik
Zeitschriftenartikel

  • J. Niu
  • H.-X. Ding
  • Y. Cong
  • N. Yu
  • Günther Benstetter
  • D. Liu

Plasma-assisted chemical vapor deposition of titanium oxide films by dielectric barrier discharge . Submitted Article

In: Thin Solid Films

  • (2010)
  • Elektrotechnik und Medientechnik
  • IQMA
Zeitschriftenartikel

  • R. Biberger
  • Günther Benstetter
  • et al.

Intermittent-Contact Capacitance Spectroscopy – A new method for determining C(V) curves with sub-micron lateral resolution

In: Microelectronics Reliability vol. 50 pg. 1511-1513.

  • (2010)

This study introduces a novel method to measure C(V) characteristics of local MOS structures based on scanning probe microscopy (SPM) techniques. The new method operates in intermittent-contact (IC) mode and combines both the advantages of contact mode C(V) spectroscopy and intermittent-contact scanning capacitance microscopy. As a consequence, on the one hand dopant concentration and dopant type can be indicated simultaneously, on the other hand tip wear is reduced significantly.
  • Elektrotechnik und Medientechnik
  • IQMA
Vortrag

  • Günther Benstetter
  • R. Biberger
  • Alexander Hofer
  • H. Göbel

Intermittent-Contact Scanning Capacitance Analysis of Thin Dielectric Films and Semiconductor Devices . Invited Talk

In: 5th International Conference on Technological Advances of Thin Films & Surface Coatings

Harbin, China

  • Juli 2010 (2010)
  • IQMA
  • Elektrotechnik und Medientechnik
Zeitschriftenartikel

  • D. Liu
  • J. Gu
  • Z. Feng
  • D. Li
  • J. Niu
  • Günther Benstetter

Comparison of fluorocarbon film deposition by pulsed/continuous wave and downstream radio frequency plasmas

In: Vacuum vol. 85 pg. 253-262.

  • (2010)

Fluorocarbon (FC) films have been deposited using pulsed and continuous wave (cw) radio frequency (rf) plasmas fed with hexafluoroethane (C2F6), octafluoropropane (C3F8), or octafluorocyclobutane (C4F8). The effects of feed gases used, discharge pressure, rf power, substrate positions and discharge modes (pulsed or cw) on the deposited films are examined. Film properties are determined using X-ray photoelectron spectroscopy, atomic force microscopy, and static contact angle measurements. The contact angles of FC films are well related to their compositions and structures. Feed gases used, discharge pressure, rf power, substrate positions and discharge modes strongly affect the morphology of the resulting film, as revealed by atomic force microscopy. Optical emission spectrometry measurements were performed to in-situ characterize the gas-phase compositions of the plasmas and radicals’ emission intensities during film deposition. Correlations between film properties, gas-phase plasma diagnostic data, and film growth processes were discussed. The film growth in pulsed or downstream plasmas was controlled by the surface migration of radicals, such as CF2 towards nucleation centers, which result in the deposition of FC films with less cross-linked nature and rougher surfaces. These results demonstrate that it is possible to control film compositions and surface structure by changing deposition parameters.
  • IQMA
  • Elektrotechnik und Medientechnik
Zeitschriftenartikel

  • Y. Yin
  • D. Li
  • J. Gu
  • Z. Feng
  • J. Niu
  • Günther Benstetter
  • et al.

Surface properties of silicon oxide films deposited using low pressure dielectric discharge

In: Applied Surface Science vol. 255 pg. 7708-7712.

  • (2009)

The deposition of SiOX films from low-pressure dielectric barrier discharge plasmas has been investigated using tetraethoxysilane (TEOS)/O2 as the feed gas. Films were analyzed using X-ray photoelectron spectroscopy (XPS), atomic force microscopy (AFM), AFM-based nanoindentation/nanowear techniques, and conductive AFM. Film deposition rates and hydrocarbon incorporation in the SiOX film decrease with addition of O2. High-quality SiOX films with extremely low surface roughness are deposited at high oxidant concertrations. Addition of oxidant to the feed gas leads to a change in the SiOX film structure from precursor-like to a dense SiOX structure. The SiOX films deposited with TEOS/O2 plasmas were found to have soft surface layers, 0.5–1.5 nm thick, which contribute to an improvement of their field emission properties. The effect of gas phase compositions on the surface properties of the conductive surface layer was discussed.
  • IQMA
  • Elektrotechnik und Medientechnik
Zeitschriftenartikel

  • Günther Benstetter
  • R. Biberger
  • D. Liu

A Review of Advanced Scanning Probe Microscope Analysis of Functional Films and Semiconductor Devices

In: Thin Solid Films vol. 517 pg. 5100-5105.

  • (2009)

This paper gives an overview of established methods and new developments in the field of Scanning Probe Microscopy (SPM) of functional films and semiconductor devices. It focuses on both, SPM analyses of passive structures and devices in operation. The contribution includes techniques such as Scanning Capacitance Microscopy (SCM) and Scanning Spreading Resistance Microscopy (SSRM) for implant mapping, Conductive AFM (C-AFM) for thin dielectrics analysis and Kelvin Probe Force Microscopy (KPFM) to study the potential distribution across active electronic devices. Finally combinations of different SPM-based techniques are described and future challenges for SPM-based techniques are discussed.
  • IQMA
  • Elektrotechnik und Medientechnik
Zeitschriftenartikel

  • R. Biberger
  • Günther Benstetter
  • H. Göbel

Displacement current sensor for contact and intermittent contact scanning capacitance microscopy

In: Microelectronics Reliability vol. 49 pg. 1192-1195.

  • (2009)

In this study a displacement current capacitance sensor (DCCS) for scanning capacitance microscopy (SCM) is introduced. It can be used for both intermittent contact (IC) and contact-SCM operation. Based on I/V conversion and subsequent lock-in amplification a displacement current can be detected and used as a measure for dopant concentration. Therefore a periodic variation of the AFM tip substrate capacitance is required. This can be achieved either by a periodic tip oscillation (IC-SCM) or an applied AC voltage between tip and sample (contact-SCM). The advantage of the DCCS is the linearity, which makes it possible to detect absolute dopant concentrations.
  • IQMA
  • Elektrotechnik und Medientechnik
Zeitschriftenartikel

  • M. Lanza
  • M. Porti
  • M. Nafría
  • X. Aymerich
  • Günther Benstetter
  • Edgar Lodermeier
  • Heiko Ranzinger
  • G. Jaschke
  • S. Teichert
  • L. Wilde
  • P. Michalowski

Crystallization and silicon diffusion nanoscale effects on the electrical properties of Al2O3 based devices

In: Microelectronic Engineering vol. 86 pg. 1921-1924.

  • (2009)

In this work, Atomic Force Microscopy (AFM) based techniques are used to study, at the nanoscale, the dependence of the electrical properties of Al2O3 stacks for Flash memories on the percent of diffused Silicon and material crystallization after being annealed at different temperatures.
  • IQMA
  • Elektrotechnik und Medientechnik
Vortrag

  • M. Lanza
  • M. Porti
  • M. Nafría
  • X. Aymerich
  • Günther Benstetter
  • et al.

Crystallization and Silicon Diffusion Nanoscale Effects on the Electrical Properties of Al2O3 Based Devices

In: Conference of Insulating Films on semiconductors (INFOS 2009)

Cambridge, Großbritannien

  • Juni 2009 (2009)
  • Elektrotechnik und Medientechnik
  • IQMA
Vortrag

  • Günther Benstetter
  • R. Biberger
  • D. Liu

A Review of Advanced Scanning Probe Microscope Analysis of Functional Films and Semiconductor Devices . Invited Talk

In: Thin Films

Singapur

  • Juli 2008 (2008)
  • Elektrotechnik und Medientechnik
  • IQMA
Vortrag

  • Günther Benstetter

Raster-Sonden-Mikroskopie an Laser Heterostrukturen

In: BMBF / VDI Fachprogramm „Optische Technologien“, Kick-Off Meeting

Regensburg

  • 2008 (2008)
  • IQMA
  • Elektrotechnik und Medientechnik
Zeitschriftenartikel

  • R. Biberger
  • Günther Benstetter
  • T. Schweinböck
  • Peter Breitschopf
  • H. Göbel

Intermittent-contact scanning capacitance microscopy versus contact mode SCM applied to 2D dopant profiling

In: Microelectronics Reliability vol. 48 (8-9) pg. 1339-1349.

  • (2008)

This study compares two different methods of scanning capacitance microscopy (SCM). The first and approved one operates in contact mode and the second novel one in intermittent-contact (IC) mode. Measurements were performed on several samples and the results are compared. New technical expertises on the novel intermittent-contact method are shown and in conclusion assets and drawbacks of this SCM method are emphasized.
  • IQMA
  • Elektrotechnik und Medientechnik
Vortrag

  • Günther Benstetter

Scanning Probe Microscopy: Analyses for Opto Semiconductors and Outlook

In: Science & Coffee

Osram OS Regensburg

  • 2008 (2008)
  • IQMA
  • Elektrotechnik und Medientechnik
Zeitschriftenartikel

  • Werner Frammelsberger
  • Günther Benstetter
  • J. Kiely
  • R. Stamp

C-AFM-based thickness determination of thin and ultra-thin SiO2 films by use of different conductive-coated probe tips

In: Applied Surface Science vol. 253 pg. 3615-3626.

  • (2007)

The influence of the probe tip type on the electrical oxide thickness result was researched for four differently coated conductive tip types using SiO2 (oxide) films with optical thickness of 1.7–8.3 nm. For this purpose, conductive atomic force microscopy (C-AFM) was used to measure more than 7200 current–voltage (IV) curves. The electrical oxide thickness was determined on a statistical basis from the IV-curves using a recently published tunnelling model for C-AFM application. The model includes parameters associated with the probe tip types used. The evolution of the tip parameters is described in detail. For the theoretical tip parameters, measured and calculated IV-curves showed excellent agreement and the electrical oxide thickness versus the optical oxide thickness showed congruent behaviour, independent of the tip type. However, differences in the electrical oxide thickness were observed for the different tip types. The theoretical parameters were modified experimentally in order to reduce these differences. Theoretical and experimental tip parameters were compared and their effect on the differences in the electrical oxide thickness is discussed for the different tip types. Overall, it is shown that the proposed model provides a comprehensive framework for determining the electrical oxide thickness using C-AFM, for a wide range of oxide thicknesses and for differently coated conductive tips.
  • Elektrotechnik und Medientechnik
  • Maschinenbau und Mechatronik
  • IQMA
Vortrag

  • M. Lanza
  • M. Porti
  • M. Nafría
  • Günther Benstetter
  • Werner Frammelsberger
  • Heiko Ranzinger
  • Edgar Lodermeier
  • G. Jaschke

Influence of the manufacturing process on the electrical properties of thin (< 4 nm) Hafnium based high-k stacks observed with CAFM

In: 18th European Symposium on Reliability of Electronic Devices, Failure Physics and Analysis (ESREF)

Arcachon, Frankreich

  • 2007 (2007)
  • Maschinenbau und Mechatronik
  • Elektrotechnik und Medientechnik
  • IQMA
Vortrag

  • Günther Benstetter

Advanced Methods in Scanning Probe Microscopy (SPM)

Dalian Nationalities University Dalian, China

  • 2007 (2007)
  • Elektrotechnik und Medientechnik
  • IQMA
Zeitschriftenartikel

  • M. Lanza
  • M. Porti
  • M. Nafría
  • Günther Benstetter
  • Werner Frammelsberger
  • Heiko Ranzinger
  • Edgar Lodermeier
  • G. Jaschke

Influence of the manufacturing process on the electrical properties of thin (< 4 nm) Hafnium based high-k stacks observed with CAFM

In: Microelectronics Reliability vol. 47 pg. 1424-1428.

  • (2007)

In this work, the dependence of the electrical characteristics of some thin (<4 nm) HfO2, HfSiO and HfO2/SiO2 stacks on their manufacturing process is studied at the nanoscale. Topography, current maps and current–voltage (I–V) characteristics have been collected by conductive atomic force microscope (CAFM), which show that their conductivity depends on some manufacturing parameters. Increasing the annealing temperature, physical thickness or Hafnium content makes the structure less conductive.
  • Elektrotechnik und Medientechnik
  • Maschinenbau und Mechatronik
  • IQMA
Zeitschriftenartikel

  • S. Gsell
  • M. Schreck
  • Günther Benstetter
  • Edgar Lodermeier
  • B. Stritzker

Combined AFM-SEM Study of the Diamond Nucleation Layer on Ir(001)

In: Diamond and Related Materials vol. 16 pg. 665-670.

  • (2007)

During bias enhanced nucleation (BEN) of diamond on iridium the nucleation centres are gathered in discrete islands — the so called “domains”. The topographic signature of these domains has been clarified in the present study by two different concepts. First scanning electron microscopy (SEM) and atomic force microscopy (AFM) were combined to take images with both techniques of a small identical area on a standard BEN sample. In spite of the 2–3 nm deep roughening of the iridium it turned clearly out that the surface shows a 1 nm deep depression within the domains compared with the surface of the surrounding layer. On a second sample which did not show the normal roughening the domains could be identified directly from AFM images. The topographic signature of the domains was the same. Conductive AFM measurements showed that inside and outside the domains the carbon nucleation layer behaves like a high resistivity dielectric sustaining fields up to 107 V/cm. Finally, the temporal development of the domain patterns was studied by consecutive biasing steps on one sample. Depending on the local ion bombardment conditions we observed lateral growth or shrinkage on the same sample. This result suggests that domain formation is a continuous process during the whole BEN procedure starting from a local nucleation event and subsequent lateral expansion.
  • IQMA
  • Elektrotechnik und Medientechnik
Vortrag

  • Günther Benstetter
  • W. Bergbauer
  • T. Lutz
  • Werner Frammelsberger

Kelvin Probe Force Microscopy – An appropriate tool for the electrical characterisation of LED heterostructures

In: Nanotech Northern Europe

Helsinki, Finnland

  • 16.-18.05.2006 (2006)
  • Elektrotechnik und Medientechnik
  • Maschinenbau und Mechatronik
  • IQMA
Zeitschriftenartikel

  • D. Liu
  • Günther Benstetter
  • Werner Frammelsberger

Nanoscale electron field emissions from the bare, hydrogenated and graphite-like layer covered tetrahedral amorphous carbon films

In: Journal of Applied Physics vol. 99 pg. 044303-044303-8.

  • (2006)

DOI: 10.1063/1.2171806

We have compared nanoscale electron field emissions from the bare, hydrogenated, and graphitelike-layer-covered tetrahedral amorphous carbon (ta-C) films. The electron field emission is investigated using a combination of atomic force microscopy (AFM)-based nanowear tests and conducting AFM, by simultaneously measuring the topography and the conductivity of the samples. The analysis of Fowler-Nordheim tunneling currents indicates the formation of filamentlike emission channels within ta-C films. The low-field emission from carbon films is primarily due to a field enhancement arising from conducting nanostructures inside the films. The implications of surface structures for electron field emission are discussed. Electrons are easily delocalized within sp2-bonded rings/chains at a film surface, which leads to an increase in the nanotip emission area. At identical emission currents of 60–80 pA, hydrogenated films are much more easily destroyed due to a relatively insulating surface structure. The results suggest that a very high emission site density, required for field-emission display applications, may be produced by locally modifying a film surface layer.
  • Maschinenbau und Mechatronik
  • Elektrotechnik und Medientechnik
  • IQMA
Vortrag

  • Günther Benstetter
  • W. Bergbauer
  • T. Lutz
  • Werner Frammelsberger

Kelvin Probe Force Microscopy – An appropriate tool for the electrical characterisation of LED heterostructures

In: 17th European Symposium - Reliability of Electron Devices, Failure Physics and Analysis (ESREF) 2006

Wuppertal

  • 03.-06.10.2006 (2006)
  • Elektrotechnik und Medientechnik
  • IQMA
  • Maschinenbau und Mechatronik
Zeitschriftenartikel

  • D. Liu
  • S. Zhang
  • S.-E. Ong
  • Günther Benstetter
  • H. Du

Surface and electron emission properties of hydrogen-free diamond-like carbon films investigated by atomic force microscopy

In: Materials Science & Engineering A vol. 426 pg. 114-120.

  • (2006)

In this study, we have deposited hydrogen-free diamond-like carbon (DLC) films by using DC magnetron sputtering of graphite target at various r.f. bias voltages. Surface and nanoscale emission properties of these DLC films have been investigated using a combination of atomic force microscopy (AFM)-based nanowear tests and conducting-AFM, by simultaneously measuring the topography and the conductivity of the samples. Nanowear tests show that these DLC films are covered with the thin (1.5–2.0 nm) graphite-like layers at surfaces. Compared to the film bulk structure, the graphite-like surface layers are more conductive. The graphite-like surface layers significantly influence the electron emission properties of these films. Low-energy carbon species can be responsible for the formation of graphite-like surface layers. Nanoscale electron emission measurements have revealed the inhomogeneous emission nature of these films. The low-field emission from these films can be attributed to the existence of sp2-configured nanoclusters inside the films.
  • IQMA
  • Elektrotechnik und Medientechnik
Vortrag

  • Günther Benstetter
  • Peter Breitschopf
  • B. Knoll
  • Werner Frammelsberger

Intermittent contact scanning capacitance microscopy – An improved method for 2D doping profiling

In: Nanotech Northern Europe

Helsinki, Finnland

  • 16.-18.05.2006 (2006)
  • IQMA
  • Maschinenbau und Mechatronik
  • Elektrotechnik und Medientechnik
Vortrag

  • Günther Benstetter
  • Werner Frammelsberger
  • Edgar Lodermeier
  • Heiko Ranzinger
  • D. Liu
  • Peter Breitschopf
  • W. Bergbauer
  • Alexander Hofer

Raster-Sonden-Mikroskopie (SPM) in der Fehler- und Zuverlässigkeitsanalytik

In: VDE Fehlermechanismen bei kleinen Geometrien

Grainau

  • 2006 (2006)
  • IQMA
  • Elektrotechnik und Medientechnik
  • Maschinenbau und Mechatronik
Zeitschriftenartikel

  • D. Liu
  • Y. Liu
  • J. Li
  • T. Ma
  • Günther Benstetter

Properties and deposition processes of a-C: H films from CH4/Ar dielectric barrier discharge plasmas

In: Surface & Coatings Technology vol. 200 pg. 5819-5822.

  • (2006)

Hydrogenated amorphous carbon (a-C: H) films were deposited from CH4+ Ar gas with low-pressure dielectric barrier discharge (DBD) plasmas. The deposition rate, film hardness and surface roughness were examined as a function of Ar concentration in CH4+ Ar. The experimental results revealed that both film hardness and surface roughness increase with increasing Ar concentration from 20% to 67%, and then decrease for Ar concentration exceeding 67%. Also, the deposition rate decreases monotonously with increasing Ar concentration. The high ratio of Ar+ flux per hydrocarbon species for the cases of Ar concentration exceeding 67% leaded to the decrease in growth rate and in surface roughness. CH4+ and Ar+ kinetic energies during the film deposition process were also analyzed theoretically based on ion drift-diffuse model. The theoretical analysis on ion kinetic energy indicated that the deposition of dense a-C: H film is proportional to an increase in kinetic energy of the hydrocarbon ion and the sputter of energetic Ar+ ions.
  • IQMA
  • Elektrotechnik und Medientechnik
Vortrag

  • S. Gsell
  • M. Schreck
  • Günther Benstetter
  • et al.

Combined AFM-SEM Study of the Diamond Nucleation Layer on Ir(001)

In: 17th European Conference on Diamond, Diamond-Like Materials, Carbon Nanotubes and Nitrides

Estoril, Portugal

  • 03.-08.09.2006 (2006)
  • IQMA
  • Elektrotechnik und Medientechnik
Zeitschriftenartikel

  • Werner Frammelsberger
  • Günther Benstetter
  • J. Kiely
  • R. Stamp

Thickness determination of thin and ultra-thin SiO2 films by C-AFM IV-spectroscopy

In: Applied Surface Science vol. 252 pg. 2375-2388.

  • (2006)

Conductive atomic force microscopy was used to determine the electrical oxide thickness for five different silicon dioxide layers with thickness in the order of 1.6–5.04 nm. The electrical thickness results were compared with values determined by ellipsometry. A semi-analytical tunnelling current model with one single parameter set was used to superpose current/voltage curves in both the direct tunnelling and the Fowler–Nordheim tunnelling regime regions. The overall electrical oxide thickness was determined by statistical means from results of nearly 3000 IV-curves recorded for different conductive CoCr-coated tips. Good agreement between the shape of model and experimental data was achieved, widely independent of the oxide thickness. Compared with the ellipsometry value, the electrical thickness was larger by a value of 0.36 nm (22%) for the thinnest oxide and smaller by a value of 0.31 nm (6%) for the thickest oxide, while intermediate values yielded differences better than 0.15 nm (<<6%). The physical differences between the measurement techniques were shown to contribute to this observation. In addition, statistical deviations between single and multiple measurements using a single tip and using a number of different tips were analysed. The causes, for example, natural oxide thickness variations, tip wear, air humidity induced effects and contaminations, are evaluated and discussed. The method proposed was able to determine the electrical oxide thickness with a standard deviation in the order of ±±6–9%. The results suggest that for optimal results it is necessary to perform several repetitions of IV-measurements for one sample and, in addition, to employ more than one tip.
  • Elektrotechnik und Medientechnik
  • Maschinenbau und Mechatronik
  • IQMA
Zeitschriftenartikel

  • W. Bergbauer
  • T. Lutz
  • Werner Frammelsberger
  • Günther Benstetter

Kelvin Probe Force Microscopy – An appropriate tool for the electrical characterisation of LED heterostructures

In: Microelectronics Reliability vol. 46 pg. 1736-1740.

  • (2006)

Light Emitting Diodes (LEDs) are commercially important devices in opto-semiconductor industry. The light emitting properties of LEDs degrade with time of operation and may lead to device failure. Even though the stability and reliability of LEDs are important topics, they are not well researched with AFM to date. This work demonstrates that Kelvin Probe Force Microscopy (KPFM) is an appropriate method to identify specific sites of increased degradation in a semiconductor heterostructure. Furthermore, the study shows that KPFM provides the metrological basis for further investigations with respect to the progress of degradation and its physical background. In this study, KPFM has been used to measure the potential gradient over cross-sectioned LED heterostructure in operation at different states of degradation. The results show significant differences between new and aged LEDs, markedly at specific layers of the LED heterostructure.
  • Maschinenbau und Mechatronik
  • Elektrotechnik und Medientechnik
  • IQMA
Zeitschriftenartikel

  • Peter Breitschopf
  • Günther Benstetter
  • B. Knoll
  • Werner Frammelsberger

Intermittent contact scanning capacitance microscopy-A novel method for 2D doping profiling

In: Microelectronics Reliability vol. 45 pg. 1568-1571.

  • (2005)
In the present study an improved method for 2D doping profiling of semiconductor device structures is presented. The method combines the capabilities of scanning capacitance microscopy (SCM) with the advantages of intermittent contact atomic force microscopy (IC-AFM) and is called intermittent contact scanning capacitance microscopy (IC-SCM). Compared with standard SCM, IC-SCM provides mechanically stable measurement conditions because tip wear is nearly eliminated. Furthermore, background signals without local information are suppressed by demodulating the SCM signal at higher harmonics of the tapping tip frequency. Both, reduced tip wear and higher harmonics demodulation yield improved spatial image resolution at less tip degradation compared with standard SCM.
  • Elektrotechnik und Medientechnik
  • Maschinenbau und Mechatronik
  • IQMA
Vortrag

  • Peter Breitschopf
  • Günther Benstetter
  • B. Knoll
  • Werner Frammelsberger

Intermittent contact scanning capacitance microscopy-A novel method for 2D doping profiling

In: 16th European Symposium on Reliability of Electron Devices, Failure Physics and Analysis (ESREF)

Arcachon, Frankreich

  • 2005 (2005)
  • Elektrotechnik und Medientechnik
  • IQMA
  • Maschinenbau und Mechatronik
Vortrag

  • Günther Benstetter
  • D. Liu
  • Werner Frammelsberger

Advanced Atomic Force Microscopy Techniques for Nano-Scale Analysis

In: 1st Conference of Micro- and Nanotechnology

Wien, Österreich

  • 2005 (2005)
  • Maschinenbau und Mechatronik
  • Elektrotechnik und Medientechnik
  • IQMA
Zeitschriftenartikel

  • Y. Liu
  • J. Zhang
  • D. Liu
  • T. Ma
  • Günther Benstetter

A triangular section magnetic solenoid filter for removal of macro- and nano-particles from pulsed graphite cathodic vacuum arc plasmas

In: Surface & Coatings Technology vol. 200 pg. 2243-2248.

  • (2005)

DOI: 10.1016/j.surfcoat.2004.09.032

A novel magnetic filter with the triangular section has been designed to remove the macro- and nano-particles from the pulsed cathodic arc plasmas utilized to prepare the tetrahedral amorphous carbon (ta-C) films. The macro- and nano-particles at the surfaces of ta-C films were observed using an optical microscope and an atomic force microscope. The filter was found to be very effective in removing the macro- and nano-particles due to its zigzag-type inner surface structure. Particles that collided with the inner surface of the filter were reflected along the direction opposite to the plasma beam, and therefore separated from the arc plasma. The effect of arc current on the filter efficiency has also been investigated.
  • IQMA
  • Elektrotechnik und Medientechnik
Zeitschriftenartikel

  • D. Liu
  • J. Zhang
  • Y. Liu
  • J. Xu
  • Günther Benstetter

Growth processes and surface properties of diamondlike carbon films

In: Journal of Applied Physics vol. 97 pg. 104901.

  • (2005)

DOI: 10.1063/1.1890446

In this study, we compare the deposition processes and surface properties of tetrahedral amorphous carbon (ta-C) films from filtered pulsed cathodic arc discharge (PCAD) and hydrogenated amorphous carbon (a-C:H) films from electron cyclotron resonance (ECR)-plasma source ion implantation. The ion energy distributions (IEDs) of filtered-PCAD at various filter inductances and Ar gas pressures were measured using an ion energy analyzer. The IEDs of the carbon species in the absence of background gas and at low gas pressures are well fitted by shifted Maxwellian distributions. Film hardness and surface properties show a clear dependence on the IEDs. ta-C films with surface roughness at an atomic level and thin (0.3–0.9 nm) graphitelike layers at the filmsurfaces were deposited at various filter inductances in the highly ionized plasmas with the full width at half maximum ion energy distributions of 9–16 eV. The a-C:H filmsdeposited at higher H/C ratios of reactive gases were covered with hydrogen and sp3 bonded carbon-enriched layers due to the simultaneous interaction of hydrocarbon species and atomic hydrogen. The effects of deposited species and ion energies on filmsurface properties were analyzed. Some carbon species have insufficient energies to break the delocalized π(nC)bonds at the graphitelike filmsurface, and they can govern filmformation via surface diffusion and coalescence of nuclei. Dangling bonds created by atomic hydrogen lead to uniform chemisorption of hydrocarbon species from the ECR plasmas. The deposition processes of ta-C and a-C:H films are discussed on the basis of the experimental results.
  • IQMA
  • Elektrotechnik und Medientechnik
Zeitschriftenartikel

  • D. Liu
  • Günther Benstetter

Conducting atomic force microscopy for nanoscale electron emissions from various diamond-like carbon films

In: Applied Surface Science vol. 249 pg. 315-321.

  • (2005)

DOI: 10.1016/j.apsusc.2004.12.029

Conducting atomic force microscopy (C-AFM) has been used to compare the nanoscale electron emissions from hydrogen-free (a-C), hydrogenated (a-C:H), and tetrahedral (ta-C) diamond-like carbon films. The current measurements are performed on the locations where the low-resistant surface layers are removed. The measurements show the uniform electron emissions from a-C:H and ta-C films. The inhomogeneous electron emission from the a-C film is primarily due to the conducting graphite clusters inside the film. The analysis of Fowler–Nordheim tunnelling currents indicates the formation of filament-like emission channels inside these films. The implications of film structures for electron field emissions are discussed.
  • Elektrotechnik und Medientechnik
  • IQMA
Vortrag

  • Günther Benstetter
  • Peter Breitschopf
  • B. Knoll
  • Edgar Lodermeier
  • Alexander Hofer
  • Werner Frammelsberger

Intermittent Contact Scanning Capacitance Microscopy-First Results

In: Workshop on Scanning Probe Microscopy and Related Techniques

Infineon Technologies Villach, Österreich

  • 10.11.2005 (2005)
  • Maschinenbau und Mechatronik
  • Elektrotechnik und Medientechnik
  • IQMA
Beitrag (Sammelband oder Tagungsband)

  • Günther Benstetter
  • Werner Frammelsberger

Raster Sondenmikroskopie in der Mikro- und Nanoelektronik

pg. 12-16.

  • (2004)
  • Elektrotechnik und Medientechnik
  • IQMA
  • Maschinenbau und Mechatronik
Vortrag

  • D. Liu
  • Günther Benstetter
  • Edgar Lodermeier

Surface properties and growth of diamond-like carbon films prepared using CVD and PVD methods

In: E-MRS 2004

Strasbourg, Frankreich

  • 24.-28.5.2004 (2004)
  • IQMA
  • Elektrotechnik und Medientechnik
Zeitschriftenartikel

  • T. Schweinböck
  • S. Schömann
  • D. Alvarez
  • M. Buzzu
  • Günther Benstetter
  • Werner Frammelsberger
  • Peter Breitschopf

New Trends in the application of scanning probe techniques in failure analysis

In: Microelectronics Reliability vol. 44 pg. 1541-1546.

  • (2004)

DOI: 10.1016/j.microrel.2004.07.037

  • IQMA
  • Maschinenbau und Mechatronik
  • Elektrotechnik und Medientechnik
Zeitschriftenartikel

  • D. Liu
  • Günther Benstetter
  • W. Wang
  • J. Zhang

Effect of pressure on the deposition of hydrogen-free amorphous carbon and carbon nitride films by the pulsed cathodic arc discharge method

In: Journal of Vacuum Science & Technology A vol. 22 pg. 2329.

  • (2004)

DOI: 10.1116/1.1798691

Hydrogen-free amorphous carbon and carbon nitride films were deposited using the pulsed cathodic arc discharge at different argon and nitrogen pressures. The surface and mechanical properties of these films were found to strongly depend on the gas pressure. The tetrahedral amorphous carbon and hard films with smooth surfaces (rms roughness: ) were prepared at lower gas pressures. Incorporation of an increasing amount of nitrogen in films caused a decrease in filmhardness. All the films were covered with the thin graphite-like surface layers. The filmhardness was correlated to the soft surface layer thickness, and the films with thinner surface layers exhibit higher hardness. The mean energies of pulsed plasma beams were measured as the functions of argon and nitrogen pressures. The mean energies of plasma beams decrease in an exponential fashion with increasing gas pressure due to the carbon ion collisions with the neutral gas species. The effects of mean energies of deposited species on the filmdeposition were explained in terms of the thermal spike migration of surface atoms. The formation of graphite-like surface layers is associated with the low-energy deposition process. The low-energy species diffusing on filmsurface lead to the formation of graphite-like films with plenty of grains. The higher-energy species may produce the strong thermal spike at filmsurface, and contribute to the formation of bonded structure at a bonded matrix.
  • Elektrotechnik und Medientechnik
  • IQMA
Vortrag

  • D. Liu
  • Günther Benstetter

Comparison of bulk and surface structure in a-C:H films

In: International Conference on Plasma Surface Engineering (PSE2004)

Garmisch-Partenkirchen

  • 13.-17.9.2004 (2004)
  • Elektrotechnik und Medientechnik
  • IQMA
Beitrag (Sammelband oder Tagungsband)

  • Günther Benstetter
  • Werner Frammelsberger

Raster Sondenmikroskopie in der Mikro- und Nanoelektronik

pg. 12-16.

Bayerisches Staatsministerium für Wirtschaft, Infrastruktur, Verkehr und Technologie

  • 2004 (2004)
  • IQMA
  • Elektrotechnik und Medientechnik
  • Maschinenbau und Mechatronik
Vortrag

  • Günther Benstetter
  • Peter Breitschopf
  • Werner Frammelsberger
  • Heiko Ranzinger
  • P. Reislhuber
  • T. Schweinböck

AFM-based scanning capacitance techniques for deep sub-micron semiconductor failure analysis

In: 15th European Symposium on Reliability of Electron Devices, Failure Physics and Analysis (ESREF)

Zürich, Schweiz

  • 2004 (2004)
  • Elektrotechnik und Medientechnik
  • Maschinenbau und Mechatronik
  • IQMA
Vortrag

  • T. Schweinböck
  • S. Schömann
  • D. Alvarez
  • M. Buzzu
  • Günther Benstetter
  • Werner Frammelsberger
  • Peter Breitschopf

New Trends in the application of scanning probe techniques in failure analysis

In: 15th European Symposium on Reliability of Electron Devices, Failure Physics and Analysis (ESREF)

Zürich, Schweiz

  • 2004 (2004)
  • IQMA
  • Elektrotechnik und Medientechnik
  • Maschinenbau und Mechatronik
Zeitschriftenartikel

  • Werner Frammelsberger
  • Günther Benstetter
  • R. Stamp
  • J. Kiely
  • T. Schweinböck

Simplified tunnelling current calculation for MOS structures with ultra-thin oxides for Conductive Atomic Force Microscopy investigations

In: Materials Science & Engineering B vol. 116 pg. 168-174.

  • (2004)

DOI: 10.1016/j.mseb.2004.09.027

As charge tunnelling through thin and ultra-thin silicon dioxide layers is regarded as the driving force for MOS device degradation the determination and characterisation of electrically week spots is of paramount importance for device reliability and failure analysis. Conductive atomic force microscopy (C-AFM) is able to address this issue with a spatial resolution smaller than the expected breakdown spot. For the determination of the electrically active oxide thickness in practice an easy to use model with sufficient accuracy and which is largely independent of the oxide thickness is required. In this work a simplified method is presented that meets these demands. The electrically active oxide thickness is determined by matching of C-AFM voltage–current curves and a tunnelling current model, which is based on an analytical tunnelling current approximation. The model holds for both the Fowler–Nordheim tunnelling and the direct tunnelling regime with one single tunnelling parameter set. The results show good agreement with macroscopic measurements for gate voltages larger than approximately 0.5–1 V, and with microscopic C-AFM measurements. For this reason arbitrary oxides in the DT and the FNT regime may be analysed with high lateral resolution by C-AFM, without the need of a preselection of the tunnelling regime to be addressed.
  • IQMA
  • Maschinenbau und Mechatronik
  • Elektrotechnik und Medientechnik
Zeitschriftenartikel

  • Günther Benstetter
  • Peter Breitschopf
  • Werner Frammelsberger
  • Heiko Ranzinger
  • P. Reislhuber
  • T. Schweinböck

AFM-based scanning capacitance techniques for deep sub-micron semiconductor failure analysis

In: Microelectronics Reliability vol. 44 pg. 1615-1619.

  • (2004)

DOI: 10.1016/j.microrel.2004.07.079

  • Maschinenbau und Mechatronik
  • IQMA
  • Elektrotechnik und Medientechnik
Vortrag

  • Günther Benstetter
  • Werner Frammelsberger
  • D. Liu
  • Peter Breitschopf

Failure analysis of deep sub-micron semiconductor structures and thin films with atomic force microscopy methods

In: First International conference on Engineering Failure Analysis (ICEFA)

Lissabon, Portugal

  • 2004 (2004)
  • Elektrotechnik und Medientechnik
  • Maschinenbau und Mechatronik
  • IQMA
Zeitschriftenartikel

  • D. Liu
  • Günther Benstetter
  • Edgar Lodermeier
  • J. Zhang
  • Y. Liu
  • J. Vancea

Filtered pulsed carbon cathodic arc: plasma and amorphous carbon properties

In: Journal of Applied Physics vol. 95 pg. 7624-7631.

  • (2004)

DOI: 10.1063/1.1753081

The carbonplasma ion energies produced by the filtered pulsed cathodic arc discharge method were measured as a function of filter inductance. The energy determination is based on the electro-optical time-of-flight method. The average ion energies of the pulsed ion beams were found to depend upon the rise time and duration of pulsed arc currents, which suggests that a gain of ion kinetic energy mainly arises from the electric plasma field from the ambipolar expansion of both electrons and ions, and an electron drag force because of the high expansion velocity of the electrons. The tetrahedral amorphous carbon (ta-C) films with a sp3 fraction of ∼70% were deposited on silicon substrates at the average ion energies of >6 eV in the highly ionized plasmas. The ta-C films were found to be covered with a few graphitelike atomic layers. The surfaceproperties of ultrathin carbonfilms, such as nanoscale friction coefficients, surface layer thickness, and silicon contents were strongly dependent on the ion energies. The growth of amorphous carbonfilms was explained in terms of the thermal spike migration of surfacecarbon atoms. In terms of this model, the thermal spike provides the energy required to release surface atoms from their metastable positions and leads to the formation of the sp3 bonded carbon on a sp3 bonded matrix. The experimental results indicate that the low-energy (<3 eV)carbon ions have insufficient energies to cause the rearrangement reaction within the film and they form graphitelike structures at filmsurface.
  • Elektrotechnik und Medientechnik
  • IQMA
Zeitschriftenartikel

  • D. Liu
  • Günther Benstetter
  • Y. Liu
  • T. Ma

Surface roughness, scratch resistance and tribological properties of hydrogenated amorphous carbon coatings prepared by low-pressure dielectric barrier discharge

In: Surface & Coatings Technology vol. 174-175 pg. 310-315.

  • (2003)

DOI: 10.1016/S0257-8972(03)00649-2

In this study, we explored the surface roughness, scratch resistance and tribological properties of hydrogenated amorphous carbon (a-C:H) coatings deposited on silicon substrates from low-pressure dielectric barrier discharge (DBD) plasmas of CH4 by using an atomic force microscope (AFM), AFM-based scratch testing technique and lateral force microscope. The AFM and scratch measurements show that the surface roughness and scratch resistance of these a-C:H coatings strongly depend on the Pd value (the product of CH4 pressure P, and discharge gas spacing d) and the a-C:H coatings deposited at suitable Pd value (typically 350 Pa mm) exhibit lower surface roughness and better scratch resistance. The a-C:H coatings deposited at the Pd value of 350–1750 Pa mm have the typical friction coefficient of approximately 0.13. The lower friction coefficient (0.11) of the a-C:H coating deposited at the smaller Pd value of 245 Pa mm can be associated with its graphite-like surface structure. The results indicate the coating structure changes from the one of graphite-like to diamond-like to polymer-like with the Pd value increasing from 245 to 1750 Pa mm. The relationship between the measured coating properties and the DBD deposition processes was presented.
  • Elektrotechnik und Medientechnik
  • IQMA
Zeitschriftenartikel

  • M. Ruprecht
  • Günther Benstetter
  • D. Hunt

A review of ULSI failure analysis techniques for DRAMs , Part II: defect isolation and visualization . Introductory Invited Paper

In: Microelectronics Reliability vol. 43 pg. 17-41.

  • (2003)

DOI: 10.1016/S0026-2714(02)00295-0

In this paper the basic techniques for defect isolation and visualization used in physical failure analysis of trench technique dynamic random access memories (DRAMs) are reviewed. The methods described are state-of-the-art for DRAM failure analysis down to 0.14 μm feature size and beyond. In addition to defect isolation and defect visualization from the front side of a die, the backside preparation approach is reviewed. Beginning with basic sample preparation techniques including mechanical polishing, wet and dry etching and focused ion beam (FIB) applications advantages and disadvantages of various techniques are discussed. In the second section of the paper different types of optical microscopes are covered as well as scanning and transmission electron microscopes. The imaging capabilities of the FIB systems are included in this section. Finally, some applications of scanning probe techniques especially for dopant measurements and thin oxide characterization are described.
  • Elektrotechnik und Medientechnik
  • IQMA
Vortrag

  • Günther Benstetter

Reliability Analysis of Integrated Circuits in Deep Sub-Micron Technology

Dalian University of Technology, Key-Labs Dalian, China

  • 17.11.2003 (2003)
  • Elektrotechnik und Medientechnik
  • IQMA
Vortrag

  • D. Liu
  • Günther Benstetter
  • Edgar Lodermeier
  • J. Vancea

Influence of the incident angle of energetic carbon ions on the properties of tetrahedral amorphous carbon (ta-C) films

In: 16th International Symposium on Plasma Chemistry

Taormina, Italien

  • 22.-27.06.2003 (2003)
  • IQMA
  • Elektrotechnik und Medientechnik
Vortrag

  • Werner Frammelsberger
  • Günther Benstetter

Failure Analysis of Deep Sub-Micron Semiconductor Structures

Chinese Academy of Science, Institute of Microelectronics Peking, China

  • 24.11.2003 (2003)
  • Maschinenbau und Mechatronik
  • Elektrotechnik und Medientechnik
  • IQMA
Vortrag

  • Günther Benstetter

Failure Analysis of Deep Sub-Micron Semiconductor Structures

Dalian University of Technology, Key-Labs Dalian, China

  • 17.11.2003 (2003)
  • IQMA
  • Elektrotechnik und Medientechnik
Zeitschriftenartikel

  • D. Liu
  • Günther Benstetter
  • Edgar Lodermeier

Surface roughness, mechanical and tribological properties of ultrathin tetrahedral amorphous carbon coatings from atomic force measurements

In: Thin Solid Films vol. 436 pg. 244-249.

  • (2003)

DOI: 10.1016/S0040-6090(03)00592-3

Atomic force microscope (AFM), lateral force microscope and AFM-based scratch and wear testing techniques were used to evaluate and compare the surface roughness, tribological and mechanical properties of thin (2.7–43 nm) tetrahedral amorphous carbon coatings prepared by pulsed cathodic arc discharge. It was found that surface roughness of ultrathin (2–8 nm) coatings was mainly determined by the roughness of the Si substrate and their average density strongly depended on their thickness. Poor friction, mechanical properties of thinner (2.7–15 nm) coatings can be associated with their low average density. The dense coatings (>15 nm) had lower friction coefficient, better scratch and wear resistance properties that were independent of their thickness. It appears that the over 15-nm coatings studied are feasible for some wear-resistant and tribological applications.
  • IQMA
  • Elektrotechnik und Medientechnik
Vortrag

  • Günther Benstetter

Failure Analysis of Deep Sub-Micron Semiconductor Structures

Chinese Academy of Science, Institute of Microelectronics Peking, China

  • 24.11.2003 (2003)
  • Elektrotechnik und Medientechnik
  • IQMA
Vortrag

  • Werner Frammelsberger
  • Günther Benstetter

Atomic Force Microscopy Studies of Thin and Ultra-Thin SiO2 Films and Interfaces

Chinese Academy of Science, Institute of Microelectronics Peking, China

  • 24.11.2003 (2003)
  • Elektrotechnik und Medientechnik
  • IQMA
  • Maschinenbau und Mechatronik
Vortrag

  • Werner Frammelsberger
  • Günther Benstetter
  • R. Stamp
  • J. Kiely

Characterization of thin and ultrathin SiO2 films and SiO2/Si interfaces with combined conducting and topographic atomic force microscopy

In: 14th European Symposium on Reliability of Electron Devices, Failure Physics and Analysis (ESREF)

Arcachon, Frankreich

  • 06.-10.10.2003 (2003)
  • Maschinenbau und Mechatronik
  • IQMA
  • Elektrotechnik und Medientechnik
Zeitschriftenartikel

  • Werner Frammelsberger
  • Günther Benstetter
  • T. Schweinböck
  • R. Stamp
  • J. Kiely

Characterization of thin and ultrathin SiO2 films and SiO2/Si interfaces with combined conducting and topographic atomic force microscopy

In: Microelectronics Reliability vol. 43 pg. 1465-1470.

  • (2003)

DOI: 10.1016/S0026-2714(03)00260-9

  • IQMA
  • Elektrotechnik und Medientechnik
  • Maschinenbau und Mechatronik
Vortrag

  • Werner Frammelsberger
  • Günther Benstetter
  • T. Schweinböck
  • R. Stamp
  • J. Kiely

Advanced Analysis of Thin and Ultrathin SiO2/Si Interfaces with Combined Atomic Force Microscopy Methods

In: 29th International Symposium for Testing and Failure Analysis pg. 406-412.

Santa Clara, CA, USA

  • November 2003 (2003)
  • Elektrotechnik und Medientechnik
  • Maschinenbau und Mechatronik
  • IQMA
Vortrag

  • Günther Benstetter
  • Werner Frammelsberger
  • et al.

UV unterstützter thermischer Oxidationsofen . Präsentation, Kategorie Patente

Würzburg

  • 2003 (2003)
  • Elektrotechnik und Medientechnik
  • IQMA
  • Maschinenbau und Mechatronik
Beitrag (Sammelband oder Tagungsband)

  • Werner Frammelsberger
  • Günther Benstetter
  • T. Schweinböck
  • R. Stamp
  • J. Kiely

Advanced Analysis of Thin and Ultrathin SiO2/Si Interfaces with Combined Atomic Force Microscopy Methods

In: 29th International Symposium for Testing and Failure Analysis pg. 406-412.

Santa Clara, CA, USA

  • (2003)
  • IQMA
  • Elektrotechnik und Medientechnik
  • Maschinenbau und Mechatronik
Vortrag

  • Werner Frammelsberger
  • Günther Benstetter

Reliability Analysis of Integrated Circuits in Deep Sub-Micron Technology

Chinese Academy of Science, Institute of Microelectronics Peking, China

  • 24.11.2003 (2003)
  • Elektrotechnik und Medientechnik
  • Maschinenbau und Mechatronik
  • IQMA
Zeitschriftenartikel

  • D. Liu
  • Günther Benstetter
  • Y. Liu
  • X. Xang
  • S. Yu
  • T. Ma

Medium- to high-pressure plasma deposition of a-C:H films by dielectric barrier discharge

In: New Diamond and Frontier Carbon Technology vol. 13 pg. 191-206.

  • (2003)
  • IQMA
  • Elektrotechnik und Medientechnik
Zeitschriftenartikel

  • D. Liu
  • Günther Benstetter
  • Edgar Lodermeier
  • X. Chen
  • J. Ding
  • Y. Liu
  • J. Zhang
  • T. Ma

Surface and structural properties of ultrathin diamond-like carbon coatings

In: Diamond and Related Materials vol. 12 pg. 1594-1600.

  • (2003)

DOI: 10.1016/S0925-9635(03)00248-6

Nanoscale wear resistance, friction, and electrical conduction tests using atomic force microscope (AFM) have been conducted on ultrathin diamond-like carbon (DLC) coatings, including tetrahedral amorphous carbon (ta-C) deposited using pulsed cathodic arc (PCA) and filtered-PCA, and hydrogenated amorphous carbon (a-C:H) deposited using electron cyclotron resonance—chemical vapor deposition (ECR-CVD). The low-resistant layers at the surfaces of these thin DLC coatings were revealed by AFM-based nanowear tests. Their thickness is mainly determined by the deposition methods and does not show an obvious variation with the coating thickness decreasing from tens of nm to a few nm. The ∼3 nm ta-C coatings from PCA and filtered-PCA deposition were found to have the stable bulk structure beneath the thin (0.3–0.95 nm) surface layers. The ∼3 nm a-C:H coating from ECR-CVD had the extremely low load-carrying capacity and exhibited the evidence of coating delamination, which can be related to the thicker (1.5±0.1 nm) soft surface layers of a-C:H coatings. The results from conducting-AFM measurements indicate that a-C:H coatings have H and sp3 C enrichment surface layers while the soft surface layers of ta-C coatings have graphite-like structure. The nanoscale friction coefficients of these thin ta-C and a-C:H coatings were compared by AFM-based lateral force microscope. The lower friction coefficient of ta-C coatings can be attributed to the existence of graphite-like surface structure.
  • IQMA
  • Elektrotechnik und Medientechnik
Vortrag

  • Werner Frammelsberger
  • Günther Benstetter
  • et al.

Atomic Force Microscopy Studies of Thin and Ultra-Thin SiO2 Films and Interfaces

Dalian University of Technology, Key-Labs Dalian, China

  • 19.11.2003 (2003)
  • Elektrotechnik und Medientechnik
  • Maschinenbau und Mechatronik
  • IQMA
Zeitschriftenartikel

  • D. Li
  • Günther Benstetter
  • Edgar Lodermeier
  • I. Akula
  • I. Dudarchyk
  • Y. Liu
  • T. Ma

SPM investigation of diamond-like carbon and carbon nitride films

In: Surface & Coatings Technology vol. 172 pg. 194-203.

  • (2003)

DOI: 10.1016/S0257-8972(03)00338-4

Scanning probe microscopy was used to evaluate and compare the surface roughness, mechanical and tribological properties of hydrogenated (a-C:H) and tetrahedral (ta-C) diamond-like carbon (DLC) and amorphous carbon nitride (a-C:N) films. Compared to the a-C:H and a-C:N films, the ta-C films exhibit the lowest surface roughness. The soft surface layers of DLC and a-C:N films were revealed by nanowear tests and their thickness varies over the range of 0.2 to 4.1 nm. The nanoscale friction coefficient measurements from lateral force microscopy shows that these films have obviously different friction coefficients. The lower friction coefficients of ta-C and a-C:N films can be attributed to the existence of soft graphite-like surface structure. We proposed the deposition processes of DLC and a-C:N films, where their surface roughness, structure and mechanical properties were associated with the vapor plasma particle energy distribution.
  • Elektrotechnik und Medientechnik
  • IQMA
Vortrag

  • Günther Benstetter

Reliability Analysis of Integrated Circuits in Deep Sub-Micron Technology

Chinese Academy of Science, Institute of Microelectronics Peking, China

  • 24.11.2003 (2003)
  • Elektrotechnik und Medientechnik
  • IQMA
Zeitschriftenartikel

  • D. Liu
  • Günther Benstetter
  • Werner Frammelsberger

The effect of the surface layer of tetrahedral amorphous carbon films on their tribological and electron emission properties investigated by atomic force microscopy

In: Applied Physics Letters vol. 82 pg. 3898-3900.

  • (2003)

DOI: 10.1063/1.1581367

The nanowear resistance, tribological, and field emissionproperties of tetrahedral amorphous carbon (ta-C) films have been analyzed by atomic force microscope (AFM)-based wear testing technique, lateral force microscope, and conducting AFM. The ta-C films grown by filtered pulsed cathodic arc discharge were found to have soft surface layers, thick, which contribute to an improvement of their field emissionproperties. The low friction coefficient between the nanotip and film surface is correlated to one or two graphite-like atomic layers at the ta-C film surfaces. The analysis of Fowler–Nordheim tunneling currents indicates the formation of filament-like emission channels in amorphous carbon films.
  • IQMA
  • Maschinenbau und Mechatronik
  • Elektrotechnik und Medientechnik
Vortrag

  • Werner Frammelsberger
  • Günther Benstetter

Failure Analysis of Deep Sub-Micron Semiconductor Structures, Presentation held at: Dalian University of Technology

Chinese Academy of Science, Institute of Microelectronics Peking, China

  • 24.11.2003 (2003)
  • IQMA
  • Elektrotechnik und Medientechnik
  • Maschinenbau und Mechatronik
Vortrag

  • Werner Frammelsberger
  • Günther Benstetter
  • T. Schweinböck
  • R. Stamp
  • J. Kiely
  • Peter Breitschopf

Atomic Force Microscopy Studies of Thin and Ultra-thin SiO2 Films . Final Report

In: 2nd VDE World Microtechnologies Congress

München

  • 2003 (2003)
  • Maschinenbau und Mechatronik
  • IQMA
  • Elektrotechnik und Medientechnik
Vortrag

  • Werner Frammelsberger
  • Günther Benstetter

Verfahren der Rastersondenmikroskopie . Präsentation, Kategorie Patente

Würzburg

  • November 2003 (2003)
  • IQMA
  • Elektrotechnik und Medientechnik
  • Maschinenbau und Mechatronik
Zeitschriftenartikel

  • D. Liu
  • Günther Benstetter
  • Edgar Lodermeier
  • J. Vancea

Influence of the incident angle of energetic carbon ions on the properties of tetrahedral amorphous carbon (ta-C) films

In: Journal of Vacuum Science & Technology A vol. 21 pg. 1655-1670.

  • (2003)

DOI: 10.1116/1.1597888

Tetrahedral amorphouscarbon (ta-C) films have been grown on Ar+-beam-cleaned silicon substrates by changing the incident angle of energetic carbon ions produced in the plasma of pulsed cathodic vacuum arc discharge. Their surface roughness, deposition rate, composition, and mechanical and frictional properties as a function of the incident angle of energetic carbon ions were reported. The substrate holder can be rotated, and so an angle of deposition was defined as the angle of ion flux with respect to the substrate surface. While the deposition angle is varied from 20° to 59°, the root-mean-square (rms) roughness decreases from 0.5 to 0.1 nm, then it turns to increase at a slow rate when the deposition angle is over 77°. The variation correlates well with the one of hardness with the deposition angle and the films with lower rms roughness exhibit the higher hardness. The soft graphite-like surface layers existing at the surfaces of these films were revealed by atomic force microscopy-based nanowear tests and their thickness increases from 0.35 to 2.9 nm with the deposition angle decreasing from 90° to 30°. The soft surface layer thickness can have a great effect on the sp3 contents measured by x-ray photoelectron spectra. Nanoscale friction coefficient measurements were performed from lateral force microscopy by using a V-shaped Si3N4 cantilever. The low friction coefficients (0.076–0.093) of ta-C films can be attributed to their graphite-like surface structure. The implications of these results on the mechanisms proposed for the film formation were discussed.
  • Elektrotechnik und Medientechnik
  • IQMA
Vortrag

  • Günther Benstetter
  • R. Schmidt
  • S. Ascher
  • M. Kerber
  • Johannes Grabmeier
  • A. Huber

Evaluation of thin oxide reliability by means of wafer level stress-testing

In: 8th European Parametric Test User Group Meeting

Prien am Chiemsee

  • April 2002 (2002)
  • Elektrotechnik und Medientechnik
  • IQMA
Vortrag

  • Günther Benstetter
  • Werner Frammelsberger
  • T. Schweinböck
  • R. Stamp
  • J. Kiely

Conducting Atomic Force Microscopy Studies for Reliability Evaluation of Ultrathin SiO2 Films . Final Report

In: IEEE International Integrated Reliability Workshop

Lake Tahoe, CA, USA

  • 2002 (2002)
  • Elektrotechnik und Medientechnik
  • IQMA
  • Maschinenbau und Mechatronik
Vortrag

  • D. Liu
  • Günther Benstetter
  • Edgar Lodermeier

Comparison of Nanoscale Scratch and Wear Resistance of a-C:H, a-C:N and ta-C Fillms

In: International Conference on Plasma Surface Engineering (PSE2002)

Garmisch-Partenkirchen

  • 9.-13.9.2002 (2002)
  • IQMA
  • Elektrotechnik und Medientechnik
Zeitschriftenartikel

  • Günther Benstetter
  • M. Ruprecht
  • D. Hunt

A review of ULSI failure analysis techniques for DRAMs , Part I: defect localization and verification . Introductory Invited Paper

In: Microelectronics Reliability vol. 42 pg. 307-316.

  • (2002)

DOI: 10.1016/S0026-2714(02)00002-1

In this paper defect localization and verification procedures for ULSI DRAMs are described. The analytical process can be grouped into three subsequent phases: component based, die based and local techniques. Beginning with non-destructive localization methods on component level, such as X-ray and scanning acoustic microscopy (SAM), subsequent depackaging of the component enables more extensive electrical probing and physical defect localization at die level. The techniques applied at that level are liquid crystal, optical beam-induced current (OBIC), photo emission microscopy (PEM) and focused ion beam (FIB) to narrow down the failing area. The final fail location is determined after subsequent unlayering steps. Electrical microprobing and FIB techniques are utilized to verify the precisely localized fail within the previously determined area.
  • Elektrotechnik und Medientechnik
  • IQMA
Vortrag

  • D. Liu
  • Günther Benstetter
  • Y. Liu
  • T. Ma

Surface Roughness and Mechanical Properties of a-C:H Films Prepared by Low-pressure Dielectric Barrier Discharge

In: International Conference on Plasma Surface Engineering (PSE2002)

Garmisch-Partenkirchen

  • 9.-13.9.2002 (2002)
  • IQMA
  • Elektrotechnik und Medientechnik
Vortrag

  • Werner Frammelsberger
  • Günther Benstetter
  • R. Stamp
  • J. Kiely

Combined AFM Methods to Improve Reliability Investigations of Thin Oxides . Final Report

In: IEEE International Integrated Reliability Workshop

Lake Tahoe, CA, USA

  • 2002 (2002)
  • IQMA
  • Elektrotechnik und Medientechnik
  • Maschinenbau und Mechatronik
Zeitschriftenartikel

  • P. Awakowicz
  • R. Schwefel
  • P. Scheubert
  • Günther Benstetter

Deposition of a-C:H Films with an ECWR-Reactor at 27 MHz: Plasma Diagnostics and Correlation to Film Properties

In: Surface & Coatings Technology pg. 342-347.

  • (2001)

DOI: 10.1016/S0257-8972(01)01313-5

For the first time, an electron–cyclotron-wave resonance (ECWR) source was used to deposit thin amorphous hydrocarbon (a-C:H) films. The deposition experiments have been supported by intensive plasma diagnostics with Langmuir probe (LP) measurements and energy mass spectrometry (EMS). The LP-investigations yielded a set of external parameters for homogeneously grown hard films at deposition rates of approximately 1.5 μm/h. By calibrating the EMS-system for particle number densities of stabile hydrocarbons and by using an appropriate fit-formula to evaluate absolute ion flux densities, the growth rates were in good agreement with predictions of the ‘thermally activated re-etching’-model (TR-model).
  • Elektrotechnik und Medientechnik
  • IQMA
Vortrag

  • Günther Benstetter

Technologie-Zuverlässigkeit von Sub-Mikrometer-ICs

In: Seminarvortrag der Lehrstühle für Technische Elektronik und Technische Elektrophysik

Technische Universität München

  • 07.02.2000 (2000)
  • Elektrotechnik und Medientechnik
  • IQMA
Zeitschriftenartikel

  • Günther Benstetter
  • A. Glasow

IC-Ausfälle durch Elektromigration: Zuverlässigkeit metallischer Leitbahnen in ULSI-Technologien

In: F&M Feinwerktechnik Mikrotechnik Mikroelektronik

  • (1999)
  • IQMA
  • Elektrotechnik und Medientechnik
Beitrag (Sammelband oder Tagungsband)

  • Günther Benstetter
  • et al.

Reliability and Failure Analysis of 64 & 256 Mb DRAM Trench Capacitors

pg. 251-258.

München

  • (1997)
  • Elektrotechnik und Medientechnik
  • IQMA
Zeitschriftenartikel

  • Günther Benstetter
  • R. Vollertsen

Zuverlässigkeitsanalysen an Sub- Mikrometer CMOS Transistoren

In: QZ - Qualität und Zuverlässigkeit pg. 1264-1267.

  • (1997)
  • IQMA
  • Elektrotechnik und Medientechnik
Beitrag (Sammelband oder Tagungsband)

  • H. Göbel
  • Günther Benstetter

Schnittstellen für schnelle Halbleiterspeicher

Berlin; Offenbach

  • (1997)
  • Elektrotechnik und Medientechnik
  • IQMA
Zeitschriftenartikel

  • Günther Benstetter
  • H. Göbel

Zuverlässigkeitsherausforderungen dünner Dielektrika in Sub-Mikrometer ICs

In: F&M Feinwerktechnik Mikrotechnik Mikroelektronik pg. 127-132.

  • (1997)
  • Elektrotechnik und Medientechnik
  • IQMA
Zeitschriftenartikel

  • H. Göbel
  • Günther Benstetter

Schnittstellen für schnelle Halbleiterspeicher

In: Nachrichtentechnische Zeitschrift (ntz) vol. 49 pg. 28-33.

  • (1996)
  • Elektrotechnik und Medientechnik
  • IQMA
Zeitschriftenartikel

  • Günther Benstetter

Experimental Observations of Steady Anodic Vacuum Arcs with Hot Cathode

In: IEEE Transactions on Plasma Science vol. 24 pg. 1389-1393.

  • (1996)

Stationary plasma discharges have been investigated in a high vacuum ambient (background gas pressure <10-2 Pa), with an externally heated cathode and a consumable hot evaporating anode. With various anode materials like chromium or copper, and electrode separations between 0.5 and 3 mm, the nonself-sustained discharge operates with DC arc currents in the range of 220 A. The waveform of the arc voltage is strongly influenced by the magnetic field of the cathode heating current, and arc voltages between a minimum of 3 V and a maximum exceeding 100 V have been observed. The voltage-current characteristics (VCC) and the influence of the electrode separation have been measured separately for the minimum and the maximum of the arc voltages and show a different behavior. The metal plasma expands into the ambient vacuum toward the walls of the vacuum vessel and offers a macroparticle free deposition source of thin films. The arc voltage can be varied by external manipulations of the arc discharge, and the mean ion energy of the expanding metal plasma shows a linear dependence of the mean arc voltage
  • IQMA
  • Elektrotechnik und Medientechnik
Beitrag (Sammelband oder Tagungsband)

  • Günther Benstetter
  • et al.

Failure Analysis of DRAM Storage Node Trench Capacitors for 0.35-Micron and Follow-On Technologies Using the Focused Ion Beam for Electrical and Physical Analysis

pg. 401-407.

  • (1996)
  • Elektrotechnik und Medientechnik
  • IQMA
Zeitschriftenartikel

  • Günther Benstetter

Anodischer Niedervoltbogen als Beschichtungsplasma

In: Journal für Oberflächentechnik (JOT) pg. 13-16.

  • (1996)
  • IQMA
  • Elektrotechnik und Medientechnik
Buch (Monographie)

  • Günther Benstetter

Laserstreuung und Entladungsdiagnostik am Beschichtungsplasma eines anodischen Vakuumbogens

In: Fortschritt-Berichte / VDI Fertigungstechnik vol. Nr. 336

VDI-Verlag Düsseldorf

  • (1995)
  • Elektrotechnik und Medientechnik
  • IQMA
Vortrag

  • Günther Benstetter
  • et al.

Laserinduzierte Fluoreszenz am expandierenden Vakuumbogenplasma

In: Frühjahrstagung der Deutschen Physikalischen Gesellschaft

Erlangen

  • März 1994 (1994)
  • Elektrotechnik und Medientechnik
  • IQMA
Vortrag

  • Günther Benstetter

Grundlagen der Laserinduzierten Fluoreszenz

In: Seminarvortrag am Lehrstuhl für Technische Elektrophysik

Technische Universität München

  • 1994 (1994)
  • Elektrotechnik und Medientechnik
  • IQMA
Vortrag

  • Günther Benstetter

Abscheidung dünner Metallschichten durch eine neuartige Plasmaentladung

In: Seminarvortrag am Lehrstuhl für Technische Elektrophysik

Technische Universität München

  • Mai 1994 (1994)
  • Elektrotechnik und Medientechnik
  • IQMA
Vortrag

  • Günther Benstetter
  • et al.

Vergleich von Kalibrierungsmethoden für Laserinduzierte Fluoreszenz (LIF)

In: Frühjahrstagung der Deutschen Physikalischen Gesellschaft

Greifswald

  • 1993 (1993)
  • Elektrotechnik und Medientechnik
  • IQMA