摘要
为提高La-Mg-Ni基储氢合金La_(0.73)Ce_(0.18)Mg_(0.09)Ni_(3.20)Al_(0.21)Mn_(0.10)Co_(0.60)的电化学性能,合成四羧基酞菁钴对其进行表面处理。表面处理后,电极最大放电容量略有下降,但电极的循环稳定性和动力学性能提高。研究结果表明,添加2%四羧基酞菁钴制得的电极的电化学性能最佳,最大放电容量达到363mA·h/g,第50次循环时的放电容量为272mA·h/g,50次循环后的放电容量保持率为75%极限,电流密度为1359mA/g。添加四羧基酞菁钴后改善了储氢合金的综合电化学性能。
Four carboxylic phthalocyanine cobalt was synthesized to improve the electrochemical performances of the new La-Mg-Ni-based hydrogen storage alloy La_(0.73)Ce_(0.18)Mg_(0.09)Ni_(3.20)Al_(0.21)Mn_(0.10)Co_(0.60).After surface treatment,the maximum discharge capacity fell slightly.The addition of four carboxylic phthalocyanine cobalt had a positive effect on the cycle stability and kinetic performance.It shown that the electrode added 2% four carboxylic phthalocyanine cobalt presented the best electrochemical properties.The maximum discharge capacity reached up to 363mA·h/g and the discharge capacity at50 th cycle was 272mA·h/g.The capacity retention after 50 cycles was 75% and the limiting current density improved to1359mA/g.Compared with the untreated one,the comprehensive electrochemical properties of hydrogen storage alloy had improved.
出处
《化工新型材料》
CAS
CSCD
北大核心
2017年第6期182-184,共3页
New Chemical Materials
基金
国家自然科学基金项目(NSFC11364013)
广西自然科学基金项目(2016GXNSFAA380201)
关键词
四羧基酞菁钴
储氢合金
表面处理
four carboxylic phthalocyanine cobalt
hydrogen storage alloy
surface treatment
