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.
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.
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.
该类材料可以广泛地作为各种锂离子电池的负极材料,并可以作为电容器的电极材料。
This kind of material can be used as negative electrode material of diversified lithium ion battery widely, and as electrode material of capacitor.
超级电容器的研究主要集中在对高性能电极材料的制备上。
The studies on super-capacitors mainly focus on the preparation of the electrode materials.
采用硫酸-盐酸腐蚀体系研究了中高压铝电解电容器电极箔多段腐蚀方法。
The effect of corrosion process on performance of electrode foil used in mesohigh voltage aluminum electrolytic capacitor in sulfuric acid-hydrochloric acid corrosion system was investigated.
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.
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.
由于碳基电容器正极容量远小于负极容量,所以本文主要致力于开发新的正极材料与作为负极的碳电极组成混合电容器。
The paper also found that the positive carbon electrode was much smaller than that of negative one, so it urged to develop new positive material to make up hybrid capacitor.
心脏除纤颤器,包括高压电源、储能电容器、至少两个电极和至少一个无接触生物传感器。
Heart defibrillator comprising a high-voltage power supply, a storage capacitor, and at least two electrodes, and at least one contactless biometric sensor.
最后简要分析了真空断路器开断电容器组过电压的形成原因及为减少重燃的电极老炼措施。
At last, vacuum circuit breaker switching capacitance group overvoltage formative causes and electrode refining for lessening reignition are discuss.
将经过二次活化处理的活性炭材料制作的电极片组装成碳基电化学电容器。
The electrochemical storage of energy was considered in a special kind of active carbon materials used as capacitor electrodes.
本文综述了碳基材料、金属氧化物及水合物材料和导电聚合物材料作为超级电容器电极材料的最新研究进展。
The recent progress of researches on supercapacitors using carbon material, metal oxides and conducing polymer as electrode materials are described in this review paper.
电致发光灯本质上是一种电容器结构,在两个电极之间夹一层无机磷(锌硫混合物)。
The EL lamp is essentially a capacitor structure with an inorganic phosphor ( zinc sulphur compound ) sandwiched between electrodes.
本发明所描述的介质材料能够生产电性能良好的电容器,而无需要使用贵金属电极。
The embodiments of the invention to be described permit the production of capacitors of good electrical characteristics, without the need for using noble metal electrodes.
高压电源、储能电容器和至少两个电极用于产生电脉冲并将这种脉冲用于患者。
The high - voltage power supply, the storage capacitor and the at least two electrodes are used for producing an electrical pulse and applying said pulse to a patient.
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;
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.
超级电容器主要由极化电极、集电极、电解质、隔离膜、引线和封装材料几部分组成,各部分的组成、结构均对其性能有重要的影响。
It consists of polarized electrode, collector, electrolyte, separator, lead and packing material, and its performances are affected by the composition and structure of each component greatly.
电极材料是决定超级电容器性能的关键因素,因此相关的研究工作一直是该领域的研究热点。
Electrode material is one of the most important components of supercapacitor. It is a key factor influencing the performance of supercapacitor.
铁电电容器形成在衬底上并由一叠层体制成,该叠层体由依次叠置的下电极、电容器铁电膜和上电极构成。
A ferroelectric capacitor is formed above a substrate and made of a lamination of a lower electrode, a capacitor ferroelectric film and an upper electrode stacked in this order.
本发明提供了金属卤化物灯1,其具有陶瓷放电容器3和两个电极4、5。
The invention provides a metal halide lamp 1 with a ceramic discharge vessel 3 and two electrodes 4, 5.
目前,超级电容器的研究主要集中在高性能的电极材料的制备上。
Studies on supercapaitors mainly focus on the preparation of high performance electrode materials now.
第一电容器,形成于所述半导体衬底上方并且具有包括第一下部电极、第一电容器介电层和第一上部电极的层压结构;
The first and second capacitors each have a multi-layer laminated structure which includes a lower electrode, a capacitor dielectric layer and an upper electrode.
公开了一种锂离子电容器,包括正电极、负电极、和作为电解液的非质子有机溶剂型锂盐溶液。
Disclosed is a lithium ion capacitor comprising a positive electrode, a negative electrode, and an aprotic organic solvent solution of a lithium salt as an electrolyte solution.
本发明是关于一种通过喷墨涂布同时涂布内电极和外电极的多层陶瓷电容器。
The present invention relates to a multi-layer ceramic capacitor printed simultaneously with internal electrode and external electrode by employing an inkjet printing.
本论文综述了超级电容器的基本原理、电极材料研究进展、应用前景,并制备了超级电容器相关的电极材料。
In this thesis, the basic principle of electrochemical capacitors, the research developments of electrode materials were reviewed, and prepared relevant electrode materials.
电极材料的性能是决定超级电容器性能的主要因素,对电极材料的研究一直是该领域的研究热点。
The electrode material is an important component influencing the performance of supercapacitors. Therefore, the research on electrode materials has been a hot topic in this filed.
电极材料的性能是决定超级电容器性能的主要因素,对电极材料的研究一直是该领域的研究热点。
The electrode material is an important component influencing the performance of supercapacitors. Therefore, the research on electrode materials has been a hot topic in this filed.
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