Based on the mathematical model of the single pore electrode, the effective three-phase boundary length of the electrochemical reaction is defined and calculated.
在单孔电极模型基础上定义了电化学反应的有效三相分界线长度概念,并给出了对应的计算方法;
Hydration of ion has bad influences on double-layer capacitance of carbon electrode, which can be reduced effectively by selecting large ion or increasing pore size of carbon electrode.
离子水化对炭电极的电容产生不利影响,选用大离子和增大炭材料的孔径,可有效降低离子水化对炭电极电容性能的影响。
Specific surface area, resistivity, and distribution of pore diameter of air electrode were measured. Polarization curve and operating performance of air electrode have been tested.
测试比表面积、电阻率、孔径分布情况、空气电极的极化曲线、放电性能。
Supercapacitor; activated carbon; electrode materials; pore size control; surface modification; asymmetrical electrochemical capacitor;
超级电容器;活性炭;电极材料;孔径调控;表面改性;不对称电化学电容器;
Supercapacitor; activated carbon; electrode materials; pore size control; surface modification; asymmetrical electrochemical capacitor;
超级电容器;活性炭;电极材料;孔径调控;表面改性;不对称电化学电容器;
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