酞菁配合物对锂-亚硫酰氯电池正极的催化作用

许占位; 孙庆津; 苏碧云; 车兔林; 宋艳虹; 李要民; 赵建社

doi:10.61558/2993-074X.1825

电化学 >

2007 , Vol. 13 >Issue 3: 293 - 296

DOI: https://doi.org/10.61558/2993-074X.1825

研究论文

酞菁配合物对锂-亚硫酰氯电池正极的催化作用

许占位 ,
孙庆津 ,
苏碧云 ,
车兔林 ,
宋艳虹 ,
李要民 ,
赵建社

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西北大学化学系陕西省物理无机化学重点实验室,西北大学化学系陕西省物理无机化学重点实验室,西北大学化学系陕西省物理无机化学重点实验室,西北大学化学系陕西省物理无机化学重点实验室,西北大学化学系陕西省物理无机化学重点实验室,西安机电信息研究所,西北大学化学系陕西省物理无机化学重点实验室陕西西安710069,陕西西安710069,陕西西安710069,陕西西安710069,陕西西安710069,陕西西安710065,陕西西安710069

收稿日期: 2007-08-28

修回日期: 2007-08-28

网络出版日期: 2007-08-28

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Studies on Catalytic Mechanism of Li/SOCl_2 Batteries by Metal Phthalocyanine Complexes

XU Zhan-wei ,
SUN Qing-jin ,
SU Bi-yun ,
CHE Tu-lin ,
SONG Yan-hong ,
LI Yao-min ,
ZHAO Jian-she

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(1.Shaanxi Key Laboratory of Physico-Inorganic Chemistry,Department of Chemistry, Northwest University,Xi'an,710069,China,2.P.O.Box 121,Xi'an,710065,China

Received date: 2007-08-28

Revised date: 2007-08-28

Online published: 2007-08-28

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摘要

合成过渡金属酞菁配合物MPc(M=Mn(Ⅱ),Fe(Ⅱ),Co(Ⅱ),N i(Ⅱ),Cu(Ⅱ)),研究MPc及其中心离子对L i/SOC l2电池正极的催化作用,并提出相关催化机理.

关键词： 过渡金属; 酞菁配合物; 锂/亚硫酰氯(Li/SOCl2); 催化机理

本文引用格式

许占位 , 孙庆津 , 苏碧云 , 车兔林 , 宋艳虹 , 李要民 , 赵建社 . 酞菁配合物对锂-亚硫酰氯电池正极的催化作用[J]. 电化学, 2007 , 13(3) : 293 -296 . DOI: 10.61558/2993-074X.1825

Abstract

Effects of metal phthalocyanine comlexes MPc(M= Mn(Ⅱ),Fe(Ⅱ),Co(Ⅱ),Ni(Ⅱ),Cu(Ⅱ)) as electrochemical catalysts on the performance of Li/SOCl2 batteries have been examined at constant resistance.And the reasons of MPc affecting the discharged voltage and discharged time of Li/SOCl2 batteries were also brought forward.A few new viewpoints on the catalytic mechanism of the reduction of thionyl chloride by phthalocyanine complexes were proposed.

Key words： transition metal; phthalocyanine complexes; lithium/thionyl chloride; catalytic mechanism

参考文献

[1]WANG Yingche(王莹澈),CAI Shengtong(蔡圣同).The application and prospect of lithium reserve batteryin fuze power source[J].Journal of Detection&Control,2000,22(4):45-48. [2]LIU Jing(刘景),GE Honghua(葛红花),ZHOUGuoding(周国定),et al.Research status of lithium/thionyl chloride battery[J].Battery,135(15):408-410. [3]XU Zhanwei(许占位),SU Biyun(苏碧云),SONGYanhong(宋艳虹),et al.Research status of lithium/thionyl chloride battery cathode[C].In:Proceedings ofthe 4th National Physic-Inorganic Symposium.Linfen:Shanxi Normal University Press,2006.198-199. [4]GUO Bingkun(郭炳焜),LI Xinhai(李新海),YANGSongqing(杨松青).Chemical cell principle&technol-ogy of cell[M].Changsha:Central South UniversityPress,2000.309-311. [5]Lee S B,Pyun S I,Lee E J.Effect of the compactnessof the lithium chloride layer formed on the carbon cath-ode on the electrochemical reduction of SOCl2electrolytein Li/SOCl2batteries[J].Electrochimica Acta,2001,47(6):855-864. [6]Doddapaneni N.Low-temperature performance of high-rate lithium/thionyl chloride cells[C]//In:Proceed-ings of the 30th Power Sources Symposium,Atlantic:NJ,1982,169-171. [7]Bernstein P A,Lever A B P.Two electron oxidation ofcobalt phthalocyanines by thionyl chloride:implicationsfor lithium/thionyl chloride batteries[J].Inorg Chem,1990,29:608-612. [8]Abraham K M,Alamgir M,Willstaedt E B,et al.Met-al phthalocyanine-catalyzed lithium/thionyl chloridecells[J].Electrochim Acta,1992,37(3):531-535. [9]SHEN Yongjia(沈永嘉).The Syntheses and applica-tion of phthalocyanines[M].Beijing:Chemical Indus-try Press,1999.36-39.

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