High-Breakdown and Low-Leakage 4H-SiC MOS Capacitor Based on HfO2/SiO2 Stacked Gate Dielectric in Trench Structures [0.03%]
基于沟槽结构中HfO2/SiO2叠层栅极电介质的高击穿低漏电4H-SiC MOS电容器
Qimin Huang,Yunduo Guo,Anfeng Wang et al.
Qimin Huang et al.
The progression of SiC MOSFET technology from planar to trench structures requires optimized gate oxide layers within the trench to enhance device performance. In this study, we investigated the interface characteristics of HfO2 and SiO2/Hf...
Advanced Pt/Ti(1-x)SnxO2-C Composite Supported Electrocatalyst with Functionalized Carbon for Sustainable Energy Conversion Technologies [0.03%]
用于可持续能源转换技术的功能性碳负载高级Pt/Ti(1-x)SnxO2-C复合电催化剂
Cristina Silva,Zoltán Pászti,Khirdakhanim Salmanzade et al.
Cristina Silva et al.
Sn-doped TiO2-carbon composites were identified as promising multifunctional supports for Pt electrocatalysts, in which the oxide component enhances resistance against corrosion and strong metal-support interactions at the Pt-oxide boundary...
One-Step Solvothermal Synthesis of Fe3O4 Acicular Aggregates Induced by Reaction Medium and Urea for Photocatalytic Degradation of Azo Dyes [0.03%]
由反应介质和尿素诱导的一锅溶剂热合成针状Fe3O4聚集体用于偶氮染料的光催化降解
Yaohui Xu,Yuting Li,Quanhui Hou et al.
Yaohui Xu et al.
Based on the magnetic sensitivity of Fe3O4 in various fields, we aimed to propose a one-step solvothermal process for the synthesis of single-phase Fe3O4 induced by the reaction medium and urea, avoiding high-temperature reduction in H2 or ...
Study on Vacuum Breakdown Properties of Surface-Modified 304 Stainless Steel Electrodes Based on Fractal Theory [0.03%]
基于分形理论的表面改性304不锈钢电极真空击穿特性研究
Shiqing Wang,Shenming Zhao,Bo Liu et al.
Shiqing Wang et al.
This paper reports on the effect of the micro-morphological characteristics of stainless steel electrodes on vacuum breakdown properties under the action of a strong electric field generated by high-power electric pulses. Using chemical pas...
Kyriakos Almpanidis,Chloe J Howard,Vlad Stolojan
Kyriakos Almpanidis
Three-dimensional electrospun foams are emerging in a diversity of applications. However, their characterisation involves procedures to calculate fibre diameter and porosity, which take considerable time. Hence, in this paper, an in situ ch...
The Effect of Deep Cryogenic Treatment on the Electrocatalytic Performance of a Pd@CFs Catalyst for Methanol Oxidation [0.03%]
深低温处理对甲醇氧化Pd@CFs催化剂电催化性能的影响
Chenxing Wang,Jiahui Mo,Haoting Wang et al.
Chenxing Wang et al.
To enhance the electrocatalytic performance of a flexible Pd@CFs catalyst for methanol oxidation, deep cryogenic treatment in liquid nitrogen was introduced. The effects of the frequency and time of the deep cryogenic treatment on the surfa...
Abrasion Effect on Heating Performance of Carbon Nanotube/Epoxy Composites [0.03%]
磨损对碳纳米管/环氧树脂复合材料传热性能的影响
Byung-Wook Kim,Seung-Jun Lee,Sung-Hwan Jang et al.
Byung-Wook Kim et al.
The effects of abrasion on the heating performance of carbon nanotube (CNT)/epoxy composites were investigated in terms of Joule's heat, convective heat, and radiative heat under moderate-to-severe and localized abrasive conditions. While t...
Carboxymethyl Cellulose Surface Modification Alleviates the Toxicity of Fe-MOFs to Rice and Improves Iron Absorption [0.03%]
羧甲基纤维素包覆改性可降低Fe-MOFs对水稻的毒性并提高铁吸收率
Yuanbo Li,Yuying Tang,Yanru Ding et al.
Yuanbo Li et al.
Iron-based metal-organic frameworks (Fe-MOFs) are widely used for agricultural chemical delivery due to their high loading capacity, and they also have the potential to provide essential iron for plant growth. Therefore, they hold significa...
An In-Plane Single-Photon Emitter Combining a Triangular Split-Ring Micro-Optical Resonator and a Colloidal Quantum Dot [0.03%]
结合三角分裂环微光学谐振器和胶体量子点的单光子发射器
Kohki Mukai,Kyosuke Uchiyama,Kohei Iwata et al.
Kohki Mukai et al.
We propose a simple and innovative configuration consisting of a quantum dot and micro-optical resonator that emits single photons with good directionality in a plane parallel to the substrate. In this device, a single quantum dot is placed...
S M Sohel Murshed
S M Sohel Murshed
Nanofluids have emerged as an advanced media in many applications, particularly thermal management and energy efficiency applications, with extensive research focusing on their thermophysical properties and thermal performances [...].