Pt has been widely used for the electrode materials of ferroelectric capacitors.
作为铁电电容的电极材料,铂是使用最为广泛的金属。
Various new negative electrode materials, other than carbon materials had been developed.
其中碳素材料之外的各种新型负板材料的探索也引起关注。
The studies on super-capacitors mainly focus on the preparation of the electrode materials.
超级电容器的研究主要集中在对高性能电极材料的制备上。
The super fine electrode materials were fabricated by a glycine-nitrate combustion process.
用甘氨酸—硝酸盐燃烧法制备了超细电极材料。
EEI has recently fabricated and tested Li-Ion cells using new and innovative electrode materials.
EEI公司最近正使用新型电极材料制造和测试锂离子电池。
Zn base, Al base, and Mg base anodes, auxiliary anodes, reference electrode materials and etc.
锌阳极、铝阳极、镁阳极、辅助阳极材料、参比电极材料等。
The preparation of the positive electrode materials was done in the solution at low temperature.
论文采用了低温液相方法制备正尖晶石型锰的嵌锂氧化物正极材料。
The selection of electrode materials is very important to the process of electro reduction ytterbium.
用电解还原法分离镱的过程中,电极材料的选择对整个电解过程有着十分重要的影响。
So far the electrode materials are mainly divided into noble-metal oxides and transition-metal oxides.
金属氧化物电极材料目前主要有贵金属氧化物和过渡金属氧化物。
Studies on supercapaitors mainly focus on the preparation of high performance electrode materials now.
目前,超级电容器的研究主要集中在高性能的电极材料的制备上。
The developing trends of electrochemical performance improving for sulfur electrode materials were prospected.
展望了硫电极材料的电化学性能改进方向。
New electrode materials and electrolytes with high capacity, low cost, non-toxicity, and safety are developed.
新的电极材料及电解质材料不断开发出来,它们具有容量大、价格低、无环境污染、使用安全等优点。
This paper briefly introduces the principle of electroabsorption technology and variety of electrode materials used.
本文简单介绍了电吸附技术的原理以及目前应用于电吸附技术的各种电极材料。
As additives of electrode materials and electrolytes, the carbon can improve the capacity and cycle life of battery.
碳作为正负极活性物质和电解液的添加剂能提高蓄电池的容量和循环寿命。
This new electrode materials production enterprises will bring clear economic benefits, the place of imported products.
这种新型材料将给焊条生产企业带来明显的经济效益,替代了进口产品。
The development foreground of inverse spinel ions doping in positive electrode materials of lithium manganese oxide was viewed.
展望了反尖晶石离子掺杂在锂离子电池锰酸锂正极材料中的发展前景。
The layered lithium manganese oxides are promising positive electrode materials for the next generation of lithium-ion batteries.
层状氧化锰锂逐渐成为新一代锂离子电池正极材料的研究热点。
Selection of proper electrode materials will accelerate electrochemical reaction rate, help electro chemical transfer of organics.
选用合适的电极材料可以加速电化学反应速率,有助于有机物的电化学转化。
The relationship between the structure and surface properties of electrode materials and its electrochemical performance was studied.
探讨了电极材料的结构及表面性质对其电化学性能的影响。
As a two-dimension high conductivity material, graphene is a good bridging agent and interface coupling agent in electrode materials.
作为一种二维高导电材料,石墨烯在电极中起到了很好的连接搭桥和界面偶合作用。
To explore high efficient catalytic electrode materials is always the key process for the application of AEOP in organic pollutant degradation.
研制和开发高效催化电极材料一直是AEOP应用于难降解有机污染物处理的关键。
The organic sulfides electrode materials for lithium secondary batteries include organodisulfide, orga- nomultisulfide, sulfurized polymers, etc.
锂二次电池有机硫化物电极材料包括有机二硫化物、有机多硫化物和硫化聚合物等。
In these applications, it is essential to fabricate high quality ferroelectric thin films on proper electrode materials, such as conductive oxides.
在这些应用中,制备供集成铁电薄膜的优质底电极就显得尤为重要。
Many efforts have been made to find out novel electrode materials and to improve the electrochemical performance of traditional electrode materials.
为了解决这一问题,大量的研究工作集中在改进已有的薄膜电极材料的电化学性能和寻找新的性能更好的薄膜电极材料。
Electrode materials, electrolyte and separator are important parts of lithium-ion batteries, which can influence the performance of battery directly.
电极材料、电解质和隔膜是锂离子电池重要组成部分,直接影响电池的性能。
The latest research progress in tool electrode materials of EDM used in conventional EDM, EDM surface modification and Micro-EDM has been introduced.
介绍了电火花加工用工具电极材料在普通电火花加工、电火花表面改性和微细电火花加工三个方面的最新研究进展。
Carbon nanotubes prepared by a catalytic pyrolysis method were considered as active electrode materials for the storage of energy in supercapacitors.
通过催化裂解法制备了碳纳米管并进一步制备了碳纳米管薄膜电极。
The new material has such high energy density because it can operate at a higher voltage than current electrode materials and also store more lithium ions.
这种新材料具有高能量密度,因为它能够以比目前更高的电压的电极材料储存更多的锂离子个单一的百分比数字。
The metal sulfides electrode materials for lithium secondary batteries include binary metal sulfides, thiospinels, oxysulfides, and thiophosphates etc.
锂二次电池金属硫化物电极材料包括二元金属硫化物、尖晶石硫化物、磷硫化物等。
The powder microelectrode cyclic voltammetric method was proved to be able to estimate the cyclic performance of carbon negative electrode materials in LIB.
同时也证明了粉末微电极循环伏安法用于估测LIB炭负极材料的循环性能的可行性。
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