对此种超级双电层电容器的应用作了展望。
主要依据最近5年来的相关文献,综述了双电层电容器的最新研究进展。
Recent advances in electric double-layer capacitors are reviewed based on the recent 5 years? references.
以炭化椰壳为原料,微波活化制备出高比电容量双电层电容器用活性炭。
High specific capacitance activated carbon materials for electric double layer capacitors (EDLC) were prepared by microwave radiation, using coconut shell chars as the precursor.
高表面电极材料,也被称为双电层电容器(金刚石),是生产成本最低,是最常见的。
The high surface electrode material, also called Double Layer Capacitor (DLC), is least costly to manufacture and is the most common.
本发明适合于作吸附剂、催化剂载体、双电层电容器及合成其它介孔材料的硬模板剂等。
The invention is adapted to be used as adsorbent, catalyst support, electric double-layer capacitor and hard-template agent for synthesizing the other meso-porous material, etc.
在储能电容器中,双电层电容器的储能密度特别高,但其内电阻大,且元件的输出电压低。
Electric double-layer capacitors (EDLC) exhibit very high storage energy density compared with other capacitors, but their inner resistance is rather higher and output voltage lower.
制备双电层电容器电极的材料主要为多孔碳材料,目前碳电极材料电容器已成功地商业化。
The main material for preparing EDLC is porous carbon material, and the EDLCs based on porous carbon electrodes have been commercialized successfully.
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。
Activated carbon for electric double layer capacitors was prepared from coal by activation with KOH through heating by microwave radiation and resistance furnace heating.
以云南小发路煤矿产无烟煤为原料,KOH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。
The activated carbon with high specific surface area for electric double layer capacitor (EDLC) was prepared with blind coal and KOH as raw material and activating reagent respectively.
由于目前实现产业化的超级电容器中,基本上都是双电层电容器,因此本文所采用的超级电容器为双电层电容器。
As the current industrialization of super capacitor basically is Electric Double Layer capacitor (EDLC), this paper used the Electric Double Layer capacitor as the super capacitor.
碳纳米管作为一种新型碳材料,具有质轻,高的有效比表面积和优良的导电性,是制备双电层电容器较为理想的电极材料。
Carbon nanotube, a new carbon material, is an ideal material for the electrodes of double electric layer capacitors for its lightweight, large effective specific surface area and high conductivity.
一种新型的电容器——5vdc 2.2F双电层电容器已研制成功并进入实用。文中介绍了这种电容器的结构和性能。
A practical new capacitor-5VDC 2.2f electric double layer capacitor is reported, and its structure, performance and various applications are discussed.
研究了KOH与煤比例、微波功率和辐射时间对活性炭比电容量的影响,并考察了煤基活性炭双电层电容器的充放电特性。
The influence of the KOH to coal in yield, power and radiation time of microwave were studied. Its charge-discharge performance of the coal based AC EDLC was studied.
针对超级电容器的物理特性,提出了双电层电容器的三种等效模型,即串联rc模型,非线性RC网络模型和线性RC网络模型。
For super capacitor of physical characteristics, there are three model of the Electric Double Layer capacitor that series RC model, nonlinear RC network model and the linear RC network model.
本文分析了超级电容器储能系统的运行原理,并将超级电容器储能系统的电路结构分为换流器,双向直流变直流变换器和双电层电容器组三个部分。
This paper analyzes the operating principle of super capacitor system, and divides into three parts of inverter, bi-directional dc-dc converter and Electric Double Layer Capacitors.
讨论了聚合物电解质在全固态双电层中电容器方面的应用及其应用前景。
The application and prospect of polymer electrolyte to two-layer fully solid-state capacitor was presented.
研究了两种去极化剂对液体钽电容器的阴极界面双电层及电容器电性能的影响。
In this paper, the influence of two depolarizing agents on the double electric layer of cathode interface and the electrical performance of wet tantum capacitors is studied.
研究了两种去极化剂对液体钽电容器的阴极界面双电层及电容器电性能的影响。
In this paper, the influence of two depolarizing agents on the double electric layer of cathode interface and the electrical performance of wet tantum capacitors is studied.
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