| People | Locations | Statistics |
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| Naji, M. |
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| Motta, Antonella |
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| Aletan, Dirar |
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| Mohamed, Tarek |
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| Ertürk, Emre |
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| Taccardi, Nicola |
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| Kononenko, Denys |
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| Petrov, R. H. | Madrid |
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| Alshaaer, Mazen | Brussels |
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| Bih, L. |
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| Casati, R. |
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| Muller, Hermance |
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| Kočí, Jan | Prague |
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| Šuljagić, Marija |
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| Kalteremidou, Kalliopi-Artemi | Brussels |
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| Azam, Siraj |
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| Ospanova, Alyiya |
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| Blanpain, Bart |
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| Ali, M. A. |
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| Popa, V. |
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| Rančić, M. |
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| Ollier, Nadège |
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| Azevedo, Nuno Monteiro |
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| Landes, Michael |
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| Rignanese, Gian-Marco |
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Deuermeier, Jonas
in Cooperation with on an Cooperation-Score of 37%
Topics
Publications (38/38 displayed)
- 2024Laser‑patterning bacterial nanocellulose for cell‑controlled interactioncitations
- 2024Thermal-Carrier-Escape Mitigation in a Quantum-Dot-In-Perovskite Intermediate Band Solar Cell via Bandgap Engineeringcitations
- 2024Laser-patterning bacterial nanocellulose for cell-controlled interactioncitations
- 2024Inkjet printed IGZO memristors with volatile and non-volatile switchingcitations
- 2023Parylene-Sealed Perovskite Nanocrystals Down-Shifting Layer for Luminescent Spectral Matching in Thin Film Photovoltaicscitations
- 2023Parylene-Sealed Perovskite Nanocrystals Down-Shifting Layer for Luminescent Spectral Matching in Thin Film Photovoltaicscitations
- 2023Thermal-Carrier-Escape Mitigation in a Quantum-Dot-In-Perovskite Intermediate Band Solar Cell via Bandgap Engineeringcitations
- 2023The Role of Hydrogen Incorporation into Amorphous Carbon Films in the Change of the Secondary Electron Yieldcitations
- 2023The role of hydrogen incorporation into amorphous carbon films in the change of the secondary electron yieldcitations
- 2023Self-sensing metallic material based on PZT particles produced by friction stir processing envisaging structural health monitoring applicationscitations
- 2023Self-sensing metallic material based on PZT particles produced by friction stir processing envisaging structural health monitoring applicationscitations
- 2022High entropy alloy CrFeNiCoCu sputter deposited films: Structure, electrical properties, and oxidationcitations
- 2022High entropy alloy CrFeNiCoCu sputter deposited films: Structure, electrical properties, and oxidationcitations
- 2022Enhanced Fe-TiO2 Solar Photocatalysts on Porous Platforms for Water Purificationcitations
- 2022Solution Combustion Synthesis of Hafnium-Doped Indium Oxide Thin Films for Transparent Conductorscitations
- 2022Solution Combustion Synthesis of Hafnium-Doped Indium Oxide Thin Films for Transparent Conductorscitations
- 2022Bandlike Transport in FaPbBr3Quantum Dot Phototransistor with High Hole Mobility and Ultrahigh Photodetectivitycitations
- 2022Tailoring the Interface in High Performance Planar Perovskite Solar Cell by ZnOS Thin Filmcitations
- 2021Highly conductive grain boundaries in copper oxide thin films
- 2021Towards Sustainable Crossbar Artificial Synapses with Zinc-Tin Oxidecitations
- 2021Towards Sustainable Crossbar Artificial Synapses with Zinc-Tin Oxidecitations
- 2020Printed, Highly Stable Metal Oxide Thin-Film Transistors with Ultra-Thin High-κ Oxide Dielectriccitations
- 2020Printed, Highly Stable Metal Oxide Thin-Film Transistors with Ultra-Thin High-κ Oxide Dielectriccitations
- 20202D Resistive Switching Based on Amorphous Zinc–Tin Oxide Schottky Diodescitations
- 2019Electrochemical metallization ReRAMs (ECM) - Experiments and modellingcitations
- 2019Mapping the space charge carrier dynamics in plasmon-based perovskite solar cellscitations
- 2019Tailoring IGZO composition for enhanced fully solution-based thin film transistorscitations
- 2019Flexible and transparent ReRAM devices for system on panel (SOP) applicationcitations
- 2018Visualization of nanocrystalline CuO in the grain boundaries of Cu2O thin films and effect on band bending and film resistivitycitations
- 2018Green Nanotechnology from Waste Carbon-Polyaniline Compositecitations
- 2018Green Nanotechnology from Waste Carbon-Polyaniline Composite ; Generation of Wavelength-Independent Multiband Photoluminescence for Sensitive Ion Detectioncitations
- 2017Memristors using solution-based IGZO nanoparticlescitations
- 2017Origins of limited electrical performance of polycrystalline Cu2O thin-film transistors
- 2017Memristors Using Solution-Based IGZO Nanoparticlescitations
- 2016Effect of Mg doping on Cu2O thin films and their behavior on the TiO2/Cu2O heterojunction solar cellscitations
- 2016Highly conductive grain boundaries in copper oxide thin filmscitations
- 2016Substrate reactivity as the origin of Fermi level pinning at the Cu2O/ALD-Al2O3 interfacecitations
- 2013P-Type CuxO thin-film transistors produced by thermal oxidationcitations
Places of action
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article
High entropy alloy CrFeNiCoCu sputter deposited films: Structure, electrical properties, and oxidation
Abstract
<p>High entropy alloy (HEA) films of CrFeCoNiCu were deposited by sputtering. Their structure was characterized and their electric transport properties were studied by temperature-dependent Hall and Seebeck measurements. The HEA films show a solid solution with an fcc structure. The residual electrical resistivity of the films is around 130 μω cm, which is higher than the Mott limit for a metal while the temperature dependence of the resistivity above 30 K is metal-like but with a small temperature coefficient of resistivity (2 ppm/K). The dominant scattering mechanism of charge carriers is alloy scattering due to chemical disorder in the HEA. The Hall coefficient is positive while the Seebeck coefficient is negative. This is interpreted as arising from an electronic structure where the Fermi level passes through band states having both holes and electrons as indicated by band structure calculations. Below 30 K, the conduction is discussed in terms of weak localization and Kondo effects. The HEA structure appears stable for annealing in vacuum, while annealing in an oxygen-containing atmosphere causes the surface to oxidize and grow a Cr-rich oxide on the surface. This is then accompanied by demixing of the HEA solid solution and a decrease in the effective resistance of the film. </p>