当代化工
噹代化工
당대화공
CONTEMPORARY CHEMICAL INDUSTRY
2015年
6期
1197-1199
,共3页
锌离子电池%二维超薄二氧化锰纳米片
鋅離子電池%二維超薄二氧化錳納米片
자리자전지%이유초박이양화맹납미편
Zinc ions battery%Ultrathin two-dimensional manganese dioxide nanosheets
锌离子电池是一种环保、廉价、安全的新型电池,它的电化学行为是正极二氧化锰通过锰的价态转换来存储二价锌离子。二氧化锰作为锌离子电池的正极材料,由于其比表面积大、导电性差等特点导致其容量并不能充分发挥。采用自反应反胶束法制备的二维超薄二氧化锰(MnO2)纳米片作为一种储存锌离子的材料,从整体上提高锌离子电池的容量。以二维超薄二氧化锰(MnO2)纳米片为正极的锌离子电池,当电流密度为0.1 A/g 时,最高容量达到484.2 mA·h/g,接近锌离子电池的最大理论容量616 mA·h/g;当电流密度为5 A/g时,电池循环两百圈后的容量保持率也有80%,表现了很好的循环性能。
鋅離子電池是一種環保、廉價、安全的新型電池,它的電化學行為是正極二氧化錳通過錳的價態轉換來存儲二價鋅離子。二氧化錳作為鋅離子電池的正極材料,由于其比錶麵積大、導電性差等特點導緻其容量併不能充分髮揮。採用自反應反膠束法製備的二維超薄二氧化錳(MnO2)納米片作為一種儲存鋅離子的材料,從整體上提高鋅離子電池的容量。以二維超薄二氧化錳(MnO2)納米片為正極的鋅離子電池,噹電流密度為0.1 A/g 時,最高容量達到484.2 mA·h/g,接近鋅離子電池的最大理論容量616 mA·h/g;噹電流密度為5 A/g時,電池循環兩百圈後的容量保持率也有80%,錶現瞭很好的循環性能。
자리자전지시일충배보、렴개、안전적신형전지,타적전화학행위시정겁이양화맹통과맹적개태전환래존저이개자리자。이양화맹작위자리자전지적정겁재료,유우기비표면적대、도전성차등특점도치기용량병불능충분발휘。채용자반응반효속법제비적이유초박이양화맹(MnO2)납미편작위일충저존자리자적재료,종정체상제고자리자전지적용량。이이유초박이양화맹(MnO2)납미편위정겁적자리자전지,당전류밀도위0.1 A/g 시,최고용량체도484.2 mA·h/g,접근자리자전지적최대이론용량616 mA·h/g;당전류밀도위5 A/g시,전지순배량백권후적용량보지솔야유80%,표현료흔호적순배성능。
Zinc ion battery is a new battery which is environment friendly, inexpensive and safety; its energy storage mechanism is to store divalent zinc ions in manganese dioxide tunnel by conversion of tetravalent manganese to trivalent manganese. Manganese dioxide is as active material to provide the energy for the cell. However, due to its large surface area and poor conductivity characteristics, the theoretical capacity cannot be fully realized. Therefore, we utilize ultrathin two-dimensional nanosheets manganese dioxide (MnO2) as a new zinc-ion intercalating material produced by a self-reacting microemulsion method to improve the capacity of the zinc ion battery. At a current density of 0.1 A/g, the maximum capacity is 484.2 mA?h/g, which is very close to the theoretical capacity of the zinc-ion battery. At the current density of 5 A/g, the capacity retention rate is still 80% after two hundred cycles, which shows good cycle performance.
