集电极电容器 collector capacitor
四电极电容器 four-electrode capacitor
极化电解电容器 [电] polarized electrolytic capacitor
无极性电解电容器 homopolar electrolytic capacitor ; [电] non-polarized electrolytic capacitor
非极性电解电容器 non-polarized electrolytic capacitor
无极性的电解电容器 ungepolter Elektrolytkondensator
带极性的电解电容器 gepolter Elektrolytkondensator
电容器的储电量取决于两个电极表面区域、电极间的绝缘性的强弱、绝缘材料以及两电极间距离。
The amount of charge that can be stored depends on the surface area of the electrodes, the strength and composition of the insulation between them, and how close they are together.
由于石墨烯的这些优势,研究人员希望其可以为电池,燃料电池和电容器等许多电化学系统带来复合电极的重大进展。
With these advantages, the researchers expect the df-G to bring significant advances of composite electrodes for a variety of electrochemical system, including batteries, fuel cells, and capacitors.
为拓展碳纳米管的实际应用,对碳纳米管应用于超级电容器的电极材料的特点作了深入分析。
The features of carbon nanotube electrodes for fabricating supercapacitors were analyzed to provide data for practical application of carbon nanotubes.
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