高性能电极材料

电极是决定超级电容器性能的主要因素，因而高性能电极材料的研究一直是该领域的热点（炭电极构成的超级电容器也称为双电层电容器，Electricdoublelayercapacitor，EDLC）。

The electrode is an important factor influencing the performance of supercapacitor . Therefore , the research of high performance electrode materials has been hot topic in this filed . The supercapacitors constructed by carbon electrodes are referable to the electric double layer capacitor ( EDLC ) .

电催化技术的核心在于功能电极材料的研制，高性能电极材料的研究成为电化学科学的前沿课题。

The preparation of electro-catalytic function electrode materials is the core and cutting-edge issue of electro-catalytic technology .

近年来，随着纳米碳材料的兴起，越来越多的高效催化剂以及高性能电极材料的应用成为了可能。

In recent years , the arising of carbon nano-materials provides the potential to the application of more and more high efficient catalysts and good performance electrode materials .

钛基形稳阳极的开发促进和实现了氯碱工业的革命，使高性能电极材料的研究成为电化学的前沿课题。

The invention of dimensionally stable anodes ( DSA ) on titanium is realization of the chlor-alkali industry revolution . The research of high performance electrode has become the forefront of electrochemical topics .

研究表明，作为一种低成本、高性能的电极材料，氧化镍有序介孔薄膜在电化学电容器方面具有广阔的应用前景。

The results suggesting that this mesoporous nickel oxide film is a promising inexpensive electrode material with good capacitive characteristics for electrochemical capacitors .

而电极材料是电催化氧化法的基础，研究制备高性能的电极材料是电化学的前沿课题。

The electrode material is the basis of electro-catalytic oxidation method to study the preparation of the electrochemical performance of the electrode material is the forefront of issues .

MH-Ni电池的高低温性能及电极材料失效分析

High and low-temperature characteristics of MH-Ni battery and degradation analysis

对超级电容器研究主要侧重于两个方面：（1）制备高性能电容器电极材料；（2）制备电容器电极。

The research of supercapacitors is mostly focused on both high performance electrode materials and preparation of electrodes .

分析了电化学电容器的研究发展趋势。研究热点是高性能新型炭电极材料的制备研究、器件的性能和应用研究以及电化学混合电容器新体系的研究等。

The research developing trends of electrochemical capacitors were analyzed and it showed that the focal points were the study on the preparation of novel carbon materials , the performance and applications of electrochemical capacitors and the novel systems of electrochemical hybrid capacitors .

高性能中孔炭电极材料是提高有机电解液体系超级电容器性能的关键。

High performance mesoporous carbon is the key component of supercapacitor using organic electrolyte .

制备具有更大容量，更高功率密度和更长循环寿命的下一代锂离子电池，关键是发展具有高性能的电极材料。

Exploring electrode materials with high performance is critical for fabricating the next generation lithium ion battery with larger capacity , higher power density and longer cycle life .