1) hybrid electrochemical capacitor
混合电化学电容器
1.
Effects of electrolyte to the performance of TiO_2 hybrid electrochemical capacitor;
电解液对TiO_2混合电化学电容器性能的影响
2) electrochemical hybrid capacitor
电化学混合电容器
1.
The nano-composite was applied to activated carbon (AC)/NiOOH electrochemical hybrid capacitor and the electrochemical performance of the capacitor was tested.
将纳米复合物应用于活性炭(AC)/NiOOH电化学混合电容器,电化学测试表明:在0。
2.
The fundamental principles, characteristics, recent development of the electrochemical hybrid capacitor were discussed.
电化学混合电容器是一种介于超级电容器和电池之间的新型贮能元件。
3) hybrid capacitor
混合电容器
1.
Preparation and characterization of porous ruthenium oxide coatings as cathode material of hybrid capacitor;
混合电容器多孔氧化钌阴极涂层的制备与表征
2.
Research on MnO_2/AC hybrid capacitors with organic electrolyte;
有机电解液MnO_2/AC混合电容器的研究
3.
Studies on hybrid capacitor based on nanosized NiO prepared by precipitation transformation method;
基于沉淀转化法制备的纳米NiO混合电容器研究
4) hybrid capacitors
混合电容器
1.
MnO2 was synthesized by precipitation method, PMMA based gel polymer electrolytes MnO2/AC hybrid capacitors were fabricated by an in situ polymerization method with MnO2 as positive electrode and activated carbon as negative electrode.
以沉淀法制备的MnO2为正极材料,活性炭(AC)为负极材料,甲基丙烯酸甲酯(MMA)作聚合物单体,碳酸二甲酯(DMC)与碳酸乙烯酯(EC)的混合液作增塑剂,高氯酸锂为支持电解质,采用内聚合法制备PMMA基凝胶聚合物电解质MnO2/AC混合电容器。
6) hybrid supercapacitor
混合超级电容器
1.
Research progress in Li-ion battery materials used for hybrid supercapacitor;
混合超级电容器用锂离子电池材料的进展
2.
C/nano-[Ni_(0.96)Co_(0.04)(OH)_2-C] hybrid supercapacitor;
C/纳米[Ni_(0.96)Co_(0.04)(OH)_2-C]混合超级电容器
3.
Synthesis and electrochemical performance of anode materials for MnO_2/C hybrid supercapacitor
锰/炭混合超级电容器阳极材料的制备及性能
补充资料:电化学电容器
分子式:
CAS号:
性质:利用电极存在双电层的原理制造的电容器。它包括双电层电容器和超电容器两大类。由于双电层的厚度在0.lnm数量级,其电容值较传统的电介质电容器大很多倍。
CAS号:
性质:利用电极存在双电层的原理制造的电容器。它包括双电层电容器和超电容器两大类。由于双电层的厚度在0.lnm数量级,其电容值较传统的电介质电容器大很多倍。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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