Results 51 to 60 of about 20,505 (219)
MXene‐Based Electromagnetic Attenuation Materials in Microwave and Terahertz Bands
Rare Metals, EarlyView.ABSTRACT MXenes exhibit considerable potential for developing high‐performance electromagnetic (EM) shielding and absorption materials operating across microwave and terahertz frequencies, due to their tunable surface chemistry and exceptional charge carrier transport properties.
Guozheng Zhang +9 more
wiley +1 more source
Dianci bileiqi, 2005 采用氨浸法制备ZnO纳米复合压敏瓷料的工艺手段,研制出压敏场强大于330V/m m,漏电流小于1μA,非线性系数大于58的压敏电阻器,电性能的一致性要优于普通压敏电阻器的5~10倍。用扫描电镜和能谱对瓷体显微结构及面扫成分进行了分析,讨论了ZnO压敏电阻材料结构和电性能的关系。研究表明,加入纳米复合粉制备压敏电阻是降低大规模生产中的成本,提高ZnO压敏电阻电性能及其一致性的有效途径。
李红耘 +5 more
doaj
Synthesis and Properties of Self-healing Polymers and Electrically Conductive Composites Based on Hydrogen-bonding [PDF]
, 2015 通过模仿生物体自愈合的特性,人工合成可自行感知和修复损伤的聚合物材料是一项富有深远意义的研究。目前聚合物材料在加工和使用过程中容易受到各种外界因素的破坏并产生难以监测的微裂纹,而这些微裂纹正是材料性能退化的起点。作为一种新颖的智能仿生材料,自修复聚合物能够感知并修复这类损伤,避免材料受到进一步破坏,延长材料使用寿命,消除安全隐患,节约维修成本。然而,目前研究的自修复高分子材料大多为绝缘体,使得其在导电领域中的应用受到限制。随着导电高分子材料在电子器件、传感器、能源、信息、航空等领域的广泛应用 ...
谢婷婉
core
Giant Tunability of Individual Magnetic Skyrmion Size via an Oscillating Local Magnetic Field
Rare Metals, EarlyView.ABSTRACT Magnetic skyrmions hold great promise as memory and computing elements in future spintronic devices. Despite the demonstration of various devices, techniques for addressable and high‐precision manipulation of individual skyrmions remain scarce.
Cai‐Hong Xie +13 more
wiley +1 more source
Gaoya dianqi, 2010 风电场并网运行会对电力系统的安全性、稳定性、电能质量、系统可靠性、电源和电网规划等方面带来一定的影响,针对这些问题,笔者介绍了风力发电的特点以及我国风力发电的现状和发展方向,分析了风电场并网运行的特性及其对电力系统的安全、调度、电能质量和稳定性的影响,最后提出了改善风电场运行性能的对策。
王天施, 苑舜
doaj
Gaoya dianqi, 2020 电力变压器是电网电力输送中的核心电气设备,合理评估变压器的性能对保证电力系统稳定运行意义重大。文中根据变压器故障的原因和评价指标来源,提出了基于定量修正层次理论的变压器性能评估方法。针对变压器性能评估指标体系中评价因素结构复杂、数量庞大的问题,首先依据指标体系中反映变压器故障的准确程度,筛选出能够反映变压器绝缘性能、油性能、过热性故障和放电性故障的关键指标,建立了变压器性能评估关键指标体系;其次利用层次分析法并结合定量修正评分函数,确定指标的最优权重,得到各指标的评分值 ...
党建, 魏慧, 贾嵘, 刘广一
doaj
Fabrication of CZTS(Se) thin films by single-target sputtering technique and their relevant application in solar cells [PDF]
, 2016 Cu2ZnSnSxSe4-x(CZTSSe)具有合适的禁带宽度(1.5eV)和较高的光吸收系数(α>104cm-1),且元素储量丰富,是最具潜力的高效率、低成本新型绿色光伏材料之一。但是,CZTS材料组分容忍度和单晶区域很小,存在二次相和元素分解等问题,难以制备高质量的CZTS薄膜。目前,CZTS薄膜器件的最高转换效率为12.6%,远低于32%的理论效率。为了发展高效率、低成本的CZTS薄膜技术,大量的研究工作必不可少。 论文的第一部分,采用操作简便的单靶(等化学计量的Cu2ZnSnS4四元化合物靶材 ...
冯嘉
core
Preparation and Electrochemical Performance of a Novel Perovskite Anode La0.9Ca0.1Fe0.9Nb0.1O3-δ for Solid Oxide Fuel Cells [PDF]
, 2017 The conventional Ni-YSZ anode as a cermet for solid oxide fuel cells (SOFCs) suffers from several shortcomings typically including low resistance to carbon coking, re-oxidation as well as sulfur poisoning.
Li, Bin +3 more
core +2 more sources
Rare Metals, EarlyView.ABSTRACT SnTe is considered a potential alternative to PbTe for thermoelectric applications. However, excessive carrier concentration and thermal conductivity result in poor thermoelectric performance. Herein, p‐type SnTe‐based materials Sn0.8‐xMn0.1Pb0.1SbxTe were synthesized, and the combined effects of Sb, Mn, and Pb were systematically investigated.
Jun‐Xiang Zhang +10 more
wiley +1 more source
Study of Fluoroethylene Carbonate (FEC) and Methylene Methanedisulfonate (MMDS) as Electrolyte Additives [PDF]
, 2015 锂离子电池是近年来电化学能源领域的研究热点,锂离子电池电解液提供锂离子穿梭于正负极之间,是锂离子电池获得高电压、高比能量以及高比功率的重要前提条件,也对电池的其他性能(如高低温及其安全性能)等起着关键作用,因此研发功能电解液是开发高性能锂离子电池时需要考虑的重要课题。功能电解液主要包括基础电解液(基础溶剂及其电解质)与添加剂两种组分,添加剂由于其只要在基础电解液中进行少量的添加就能做为功能电解液进而有效改善锂离子电池电化学性能,且不需要改变锂离子电池的结构和工艺的特点,成为功能电解液研究的热点之一 ...
卞锋菊
core