1) electric double-layer capacitor
双电层电容器
1.
The application model of the electric double-layer capacitor;
双电层电容器的应用模型
2.
Influence of the surfactant on electric double-layer capacitors;
表面活性剂对双电层电容器性能的影响
3.
Research of ionic liquid application for electric double-layer capacitor;
离子液体在双电层电容器中的应用研究
2) electric double layer capacitor
双电层电容器
1.
Application of ionic liquid/polymer electrolytes in the electric double layer capacitors;
离子液体/聚合物电解质在双电层电容器中的应用
2.
Preparation of high surface area active carbon electrode and its application in electric double layer capacitor;
高表面活性炭电极的制备及其在双电层电容器中的应用
3.
Comparison on electrochemical performance of single-face and double-face covered electrodes for electric double layer capacitor
双电层电容器中单/双面涂覆电极的电化学性能比较
3) double layer capacitor
双电层电容器
1.
A high surface area activated carbon(2 516 m2/g) was chosen for electric double layer capacitors with 1 mol/L (Et)4NBF4/PC, 1 mol/L LiPF6/(PC+DMC+EMC), 1 mol/L LiPF6/(EC+DMC+EMC) and 1 mol/L LiClO4/PC as electrolytes.
采用高比表面积椰壳基活性炭作电极材料,分别以1mol/L (Et)4NBF4/PC、1mol/L LiPF6/(PC+DMC+EMC)、1mol/L LiPF6/(EC+DMC+EMC)和1mol/L LiClO4/PC作为电解液,组装成有机体系双电层电容器。
2.
Principle about the formation of the internal resistance of the double layer capacitors is analyzed.
为降低双层电容器等效内阻,扩大其输出电流,分析了双电层电容器内阻的形成机理,得出其等效串联内阻的主要影响因素为高电导率电解液的选取、极化电极的制备、极化电极和集电极的接触电阻以及封装工艺等。
3.
Previous papers reported the development of researches on double layer capacitor with high power and low equal series resistance,analyzed different equiva.
通过介绍国内外研究的双电层电容器的不同等效电路图,分析其等效串联内阻的形成原理,得出该内阻的主要影响因素为电解液的选取、极化电极的制备、极化电极和集电极的接触电阻以及封装工艺并总结了国内外研究的有效降低该内阻的措施与方法。
4) electric double-layer capacitors
双电层电容器
1.
A new type of electric double-layer capacitors prepared and study on electrochemical properties;
新型双电层电容器的制备及电化学性能研究
2.
The activated carbons with high specific surface area (HSSAAC) have been prepared with phenol-formaldehyde resins as raw material and NaOH as activating agent, and the obtained HSSAAC have been tested as the electrode of electric double-layer capacitors (EDLC).
以酚醛树脂为原料,NaOH为活化剂制取双电层电容器用高比表面积活性炭电极材料,考察了炭化温度、活化温度、活化剂用量、活化时间等工艺参数对活性炭比电容的影响。
5) electric double layer capacitors
双电层电容器
1.
Preparation of activated carbon for electric double layer capacitors from petroleum coke by microwave radiation;
微波辐照石油焦制备双电层电容器用活性炭
2.
Electric double layer capacitors using activated carbon as their electrodes are peculiar power sources with a high reliability, it is extremely resistant to oxidation, chemical and heat treatment.
双电层电容器具有体积小、容量大和价格便宜等特点 ,以活性炭为电极的双电层电容器是具有高度可靠性的特殊电源 ,在许多便携式电子仪器和通讯设备上被用作备用电源 。
3.
Activated carbon for electric double layer capacitors was prepared from coal by activation with KOH through heating by microwave radiation and resistance furnace heating.
以煤为原料,KOH为活化剂,采用微波辐射加热法和电阻炉加热法制备出双电层电容器用活性炭。
6) double-layer capacitor
双层电容器
1.
In this paper,the relation of voltage-time when electrolyte NaCl,KCl,KH_2PO_4 flowed on the surface of carbon nanotube films were measured,and the voltage increased with the increment of the concentration of electrolyte,according to the "double-layer capacitor" model,the cause of the voltage was discussed.
测量了当电解液NaCl、KCl、KH_2PO_4流过多壁碳纳米管薄膜表面时所产生的电势——时间关系,并证明了电势随着电解液浓度的升高而增加,通过“双层电容器”模型简要分析了电势产生的原因。
补充资料:双电层电容器
分子式:
CAS号:
性质:由一对可极化电极和电解质组成的电容器。电荷储存在电极和电解质之间所构成的界面上。由于界面层的厚度是在0.lnm的数量级,因而其电容量很大。它的比能量小于电池,大于电介质电容器,而比功率大大超过电池。它具有充电快速、可大电流放电、在宽广的温度范围内充放电性能稳定、循环寿命长、安全、无污染等优点。1978年日本研制成新型活性炭有机电解质电容器,已商品化。
CAS号:
性质:由一对可极化电极和电解质组成的电容器。电荷储存在电极和电解质之间所构成的界面上。由于界面层的厚度是在0.lnm的数量级,因而其电容量很大。它的比能量小于电池,大于电介质电容器,而比功率大大超过电池。它具有充电快速、可大电流放电、在宽广的温度范围内充放电性能稳定、循环寿命长、安全、无污染等优点。1978年日本研制成新型活性炭有机电解质电容器,已商品化。
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