1) overdrive capacitor
超速电容器
2) supercapacitor
超电容器
1.
Modification of Molybdenum Nitride Electrode for Supercapacitor(I)——The Effect of Ammonium Vanadate on the Properties of Molybdenum Nitride Electrode;
超电容器用电极材料氮化钼的改性研究(I)——钒酸氨添加物对电极性能的影响
2.
Hybrid Electrochemical Supercapacitors Based on Polyaniline and Activated Carbon Electrodes;
聚苯胺/活性碳复合型超电容器的电化学特性(英文)
3.
Reviewed was application progress of the nanocomposites consisting of metal nanoparticles and polyaniline in electronic components,including fuel cell,secondary cell,supercapacitor,sensor and memory device.
综述了聚苯胺与金属纳米所组成的复合材料在各种电子元件,如燃料电池、二次电池、超电容器、传感器和信息存储器件等方面的应用进展。
3) supercapacitors
超电容器
1.
Composite electrodes for supercapacitors were prepared by sintering at 120 篊, with activated carbons (ACs) of high specific surface area as material and phenolic resin (PR) as binder.
用高比表面积活性炭作为原料,酚醛树脂为粘结剂,在120℃高温下粘结成型制备系列超电容器用固体活性炭电极,改变酚醛树脂添加量考察不同炭化温度对复合活性炭电极炭化收率的影响。
2.
The carbon nanotube prepared by catalytic pyrolysis method is considered as an active electrode material for energy storage supercapacitors.
基于该种材料的超电容器电极比容量为36 F/g。
3.
With the acquired composites as active materials of electrodes, the prototype supercapacitors were made.
再以此类复合材料为活性物质制作电极,组装成原型超电容器。
4) supercapacitor
超级电容器
1.
Chemico-oxidative polymerization of polypyrrole for supercapacitor electrodes and optimization of its synthesis process;
化学氧化法合成超级电容器电极用聚吡咯及其工艺优化
2.
Carbon nanotube electrodes for fabricating supercapacitors;
应用于超级电容器的碳纳米管电极的几个特点
3.
Development and application of large-power supercapacitor;
大功率超级电容器的发展与应用
5) supercapacitors
超级电容器
1.
Principles and applications of supercapacitors;
超级电容器的原理及应用
2.
Impedance characteristics and complex-space modeling of supercapacitors;
超级电容器的阻抗特性及其复空间建模
3.
Investigations on supercapacitors using PAN-based gel polymer electrolytes;
PAN基凝胶聚合物电解质超级电容器的研究
6) super capacitor
超级电容器
1.
Study on preparation and performance of MnO_2 as electrode material in super capacitor;
超级电容器电极材料MnO_2的制备及其性能研究
2.
Preparation and modification of nano-sized MnO_2 electrode material for super capacitor;
纳米二氧化锰超级电容器电极材料的制备及改性
3.
Design of LED pharos and avigation obstacle light for super capacitor;
超级电容器供电的LED航标灯和航空障碍灯
补充资料:超电容器
分子式:
CAS号:
性质:使用的是具有大面积的可逆氧化还原电极,电容来源于电化学氧化还原反应,电压V随荷电量Q的变化而变化。dQ与dV之比为氧化还原电容,比双电层电容器大10~100倍。典型的氧化还原电容是RuO2H2SO4RuO2体系,电极反应为 2RuO2+2H++2e-=Ru2O3+H2O若用导电聚合物如聚苯胺作电极的电化学电容器,不仅在表面而且在整个膜的体相内都可储存电荷,每2~3个单体就可以有一个电子的电荷,达到500C/g。
CAS号:
性质:使用的是具有大面积的可逆氧化还原电极,电容来源于电化学氧化还原反应,电压V随荷电量Q的变化而变化。dQ与dV之比为氧化还原电容,比双电层电容器大10~100倍。典型的氧化还原电容是RuO2H2SO4RuO2体系,电极反应为 2RuO2+2H++2e-=Ru2O3+H2O若用导电聚合物如聚苯胺作电极的电化学电容器,不仅在表面而且在整个膜的体相内都可储存电荷,每2~3个单体就可以有一个电子的电荷,达到500C/g。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条