材料导报
材料導報
재료도보
MATERIALS REVIEW
2009年
24期
107-111
,共5页
李海普%万俊杰%王帅%常庆伟%欧阳明
李海普%萬俊傑%王帥%常慶偉%歐暘明
리해보%만준걸%왕수%상경위%구양명
醌胺聚合物%电化学性能%功能高分子%正极材料%锂离子电池
醌胺聚閤物%電化學性能%功能高分子%正極材料%鋰離子電池
곤알취합물%전화학성능%공능고분자%정겁재료%리리자전지
poly(amine quinone)%electrochemical properties%functional polymers%cathode materials%lithium ion battery
采用循环伏安法考察了由溶液法及微波辅助固相法制备的醌胺聚合物的电化学性能.结果表明,采用微波固相法制备的产物具有更高的电极活性、容量、循环稳定性和重现性.将此法制得的醌胺聚合物与金属锂组装成模拟电池,进行恒电流充放电测试.实验结果表明,模拟电池的充放电效率最高可达92.7%,比容量约为41mA·h/g.
採用循環伏安法攷察瞭由溶液法及微波輔助固相法製備的醌胺聚閤物的電化學性能.結果錶明,採用微波固相法製備的產物具有更高的電極活性、容量、循環穩定性和重現性.將此法製得的醌胺聚閤物與金屬鋰組裝成模擬電池,進行恆電流充放電測試.實驗結果錶明,模擬電池的充放電效率最高可達92.7%,比容量約為41mA·h/g.
채용순배복안법고찰료유용액법급미파보조고상법제비적곤알취합물적전화학성능.결과표명,채용미파고상법제비적산물구유경고적전겁활성、용량、순배은정성화중현성.장차법제득적곤알취합물여금속리조장성모의전지,진행항전류충방전측시.실험결과표명,모의전지적충방전효솔최고가체92.7%,비용량약위41mA·h/g.
The electrochemical properties of poly(amine quinine)s,which are synthesized by solution polymerization or microwave assisted solid-state polymerization,are investigated by cyclic voltammetry.The results show that the polymer obtained via solid-state reaction exhibits higher activity,larger capacity,improved cyclic stability and favorable reproducibility,when compared with its counterpart prepared by solution reaction.The former is further used as cathode to assemble model lithium ion batteries.The charge-discharge experiments indicate that the efficiency can reach as high as 92.7%,and the specific capacity can be about 41mA·h/g.