ALD-Derived WO3- x Leads to Nearly Wake-Up-Free Ferroelectric Hf0.5Zr0.5O2 at Elevated Temperatures [0.03%]
低温下近乎无需“唤醒”的铁电Hf0.5Zr0.5O2器件中的WO3- x 纳米薄膜原子层沉积法生长研究
Nashrah Afroze,Jihoon Choi,Salma Soliman et al.
Nashrah Afroze et al.
Breaking the memory wall in advanced computing architectures will require complex 3D integration of emerging memory materials such as ferroelectricseither within the back-end-of-line (BEOL) of CMOS front-end processes or through advanced ...
Mohammad Hafijur Rahaman,Nathan Tanner Sawyers,Mourad Benamara et al.
Mohammad Hafijur Rahaman et al.
Elemental tellurium (Te) is a compelling van der Waals material due to its interesting chiral crystal structure and predicted topological properties. Here, we report the fabrication and comprehensive quantum transport study of devices based...
Sustainable Manufacturing of Fully Printed Zn/ZnO/CNT Schottky Diodes on Kraft Paper [0.03%]
在牛皮纸上制造全印刷锌/氧化锌/碳纳米管肖特基二极管以实现可持续发展智能制造
Luís Henrique Tigre Bertoldo,Maíza Ozório,Douglas Henrique Vieira et al.
Luís Henrique Tigre Bertoldo et al.
The escalating generation of electronic waste underscores the critical need for sustainable alternatives to conventional electronic technologies. Printed electronics emerge as a promising approach to address this issue by incorporating sust...
Trap-Controlled Conduction and Metal-Insulator Transition in Superconducting Cuprate Memristors [0.03%]
用于超导铜氧膜忆阻器中的陷阱控制传导及金属绝缘体转变效应研究
Thomas Günkel,Enrique Miranda,Lluís Balcells et al.
Thomas Günkel et al.
Memristive devices based on high-temperature superconducting cuprates offer promising routes for neuromorphic computing, yet the microscopic mechanisms governing their resistive switching remain unclear. Here we investigate YBa2Cu3O7-δ (YB...
Gate-Localized Fluorination Enables Enhancement-Mode AlGaN/GaN High-Electron Mobility Transistors [0.03%]
gate定位氟化增强型algncaf/gan高电子迁移率晶体管
Do Wan Kim,Byungsoo Kim,Yongjoo Cho et al.
Do Wan Kim et al.
Gallium nitride (GaN)-based high-electron-mobility transistors (HEMTs) are key to high-power and high-frequency electronics owing to their wide bandgap, high breakdown field, and ability to form a high-density two-dimensional electron gas (...
Real-Time TEM Observation of the Microstructural Evolution in Silver Nanowires under Heating and Electrical Biasing [0.03%]
加热和偏置下的银纳米线微结构实时观察研究
Katarzyna Bejtka,Marco Allione,Carlo Ricciardi et al.
Katarzyna Bejtka et al.
Silver nanowires (Ag NWs) are of interest for a variety of emerging technologies, such as transparent electrodes, nanoscale heaters, and neuromorphic devices, thanks to their excellent electrical conductivity, flexibility, and tunable nanos...
Improvement of the Thermoelectric Power Factor of ZnO Using Ionic Liquids [0.03%]
离子液体在提高ZnO热电性能中的应用研究
Md Mahmudur Rahman,Lourdes Márquez-García,Guillem Montaña-Mora et al.
Md Mahmudur Rahman et al.
Thermoelectric (TE) materials are able to convert heat into electricity. Since many heat sources are available in our sourroundings (e.g., body heat, sun, domestic heat), thermoelectricity have drawn significant interest for energy harvesti...
Gonzalo Rivera-Sierra,Roberto Fenollosa,Juan Bisquert
Gonzalo Rivera-Sierra
Hybrid oscillator architectures that combine feedback oscillators with self-sustained negative resistance oscillators have emerged as promising platforms for artificial neuron design. In this work, we introduce a modeling and analysis frame...
Polyimide-Based Nanocomposites with Ultra-High Dielectric Breakdown Strength: A Review and New Record [0.03%]
高性能聚酰亚胺基纳米复合材料的介电强度研究及新纪录
Sombel Diaham,Imadeddine Benfridja,Tadhg Kennedy
Sombel Diaham
A novel state-of-the-art record in the field of dielectric breakdown strength enhancement of polyimide-based nanocomposites is reported in this work. This achievement has been obtained through accurate optimization of the surface chemistry ...
Influence of Disorder on the Electronic Properties and Magnetotransport of Ti3C2T x Single-Flake Devices [0.03%]
无序对Ti3C2Tx单片器件的电子性质和磁阻影响
Francesca Urban,Stefano Ippolito,Jane Frostad et al.
Francesca Urban et al.
The exploration of MXenes for electronic applications is a rapidly growing field in materials science. However, most research has focused on MXene films, with only a limited number of studies addressing the characterization of single-flake ...