不幸的是,这一个违反电中性的原理,在这个理论中不同带电的电解质如同水电解液那样是电中性的。
Unfortunately, the finding violates the principle of electric neutrality, in which the differently charged molecules of an electrolyte like water cancel out.
胶体电池的电解质呈固态,密封结构,凝胶电解液,永不漏液,使电池内每一部位的比重保持一致。
Gel battery electrolyte and solid, sealing structure, gel electrolyte, never leakage, to keep the proportion of each part.
电解质:呈凝胶状态,电解液无分层、电池循环性能好;电解液密度低、减缓对板栅腐蚀,电池浮充寿命长。
Electrolyte: in gel state, no delamination, battery electrolyte circulation performance is good; The electrolyte density low, slow on board gate corrosion, floating battery life is long.
当您连接上的电池负载时,金属缓慢反应,进入电解液,解散电离和电解质的部分越来越大,作为电极变薄。
When you connect a load on the battery, the metals slowly react and dissolve into the electrolyte, ionize, and the electrolyte portion is getting larger, as the electrodes get thinner.
从有机溶剂、电解质锂盐、添加剂三个方面,论述了锂离子电池的电解液研究进展情况。
From the aspects of organic solvents, lithium salts and additives, research progress of the non-aqueous organic electrolyte for Li-ion batteries is reviewed.
基于电化学理论和电解质溶液中的吸附理论,建立了包含电解液浓度、氧化电压和温度在内的实验参数动力学模型。
Based on the electrochemical theory and the theory of adsorption in electrolyte solution, a dynamic model is established, which contains the electrolyte concentration, applied voltage and temperature.
介绍了超级电容器工作电解质中的水系电解液和有机电解液的特点及研究成果,简要说明了固体电解质和凝胶电解质的特点。
The properties and research achievements of aqueous electrolytes and organic electrolytes are introduced, and the features of polymer electrolytes and gel electrolytes are described.
由PVDF形成的凝胶电解质由于不断晶化,导致对电解液的保持能力欠佳,用添加pmma的方法改善了其热稳定性。
The GPE made of PVDF has bad solution retention capacity because of crystallization of PVDF and its heat stability has improved after adding PMMA.
由PVDF形成的凝胶电解质由于不断晶化,导致对电解液的保持能力欠佳,用添加pmma的方法改善了其热稳定性。
The GPE made of PVDF has bad solution retention capacity because of crystallization of PVDF and its heat stability has improved after adding PMMA.
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