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作 者:张大为[1,2] 袁华堂[1,2] 汪根时 周作祥[1,2] 张允什
机构地区:[1]南开大学新能源材料化学研究所 [2]国家贮能材料中心电极研究所
出 处:《功能材料与器件学报》1998年第3期167-174,共8页Journal of Functional Materials and Devices
基 金:天津自然科学基金
摘 要:采用化学镀铜法对储氢合金进行表面包覆,用包覆粉制成的储氢电极,其放电容量、大电流充放电性能均得到了改善,1C全充放循环100次,容量仅下降5%;未包覆粉制成的电极,其容量相应地损失了21%。用此包覆粉组装成Ni/MH电池,1C/02C达到95%,1C全充放循环200周期,容量衰减20%。此外,初步探讨了储氢合金表面包铜的得与失。Negative electrode was made of Cu-coated hydrogen storage alloy powders. The capacity decay was only 5% after 100 cycles compared with its saturated value at 25 0C (1C charge-discharge, 100% DOD).In addition, the charge-discharge characteristics were improved by the copper coating, especially at high rate charge/discharge due to the role of copper as a microcurrent collector forfacilitating charge transfer reaction on the alloy surface.Experimental Ni/MH battery (AA size) using Cu-coated alloy powders as anode materials showed a longer cycle life and a higher average discharge voltage than one using the bare alloy.Moreover, the results showed that after microencapsulation with copper, a little part of the capacity of hydrogen storage alloy was lost because of the existance of copper film with high overpotential of hydrogen evolution and poor electrocatalytic activity, causing an uncompleted contact between alloy and electrolyte.
分 类 号:TG139.7[一般工业技术—材料科学与工程] TM911[金属学及工艺—合金]
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