功能材料
功能材料
공능재료
Journal of Functional Materials
2015年
21期
21089-21092
,共4页
刘渝萍%张丁非%李晶%李婷婷%谢剑%苏红方%何春燕%李钰莹
劉渝萍%張丁非%李晶%李婷婷%謝劍%囌紅方%何春燕%李鈺瑩
류투평%장정비%리정%리정정%사검%소홍방%하춘연%리옥형
镁可充电池%正极材料%V6O13%VO2%溶胶-凝胶法
鎂可充電池%正極材料%V6O13%VO2%溶膠-凝膠法
미가충전지%정겁재료%V6O13%VO2%용효-응효법
Mg rechargeable battery%cathode material%V6 O1 3%VO2%sol-gel method
采用溶胶-凝胶法结合乙醇超声法制备了复合材料 VO 2/V6 O 13。通过 SEM、XRD、CV、CP 方法对复合材料 VO 2/V6 O 13的微观形貌、相组成、电化学储镁性能进行了研究。结果表明,通过乙醇超声和 Ar气氛煅烧还原 V2 O 5可得到两相复合物45% VO 2和55%V6 O 13;复合材料微观形貌为50~200 nm 的海胆状产物;复合材料 VO 2/V6 O 13的脱嵌镁过程均为两步,仅有部分镁离子能可逆脱嵌;在0.3 mA/cm2充放电密度下,复合材料 VO 2/V6 O 13的首次放电比容量高达365 mAh/g,放电平台约为-0.50 V(vs.SCE),经过11次充放电循环,它的放电比容量仍然有160 mAh/g,保持了较好的充放电循环性能,但是复合材料 VO 2/V6 O 13的脱嵌镁过程仍然受到镁离子扩散控制。总的来看,复合材料 VO 2/V6 O 13是一类有希望用于镁可充电池的钒系正极材料。
採用溶膠-凝膠法結閤乙醇超聲法製備瞭複閤材料 VO 2/V6 O 13。通過 SEM、XRD、CV、CP 方法對複閤材料 VO 2/V6 O 13的微觀形貌、相組成、電化學儲鎂性能進行瞭研究。結果錶明,通過乙醇超聲和 Ar氣氛煅燒還原 V2 O 5可得到兩相複閤物45% VO 2和55%V6 O 13;複閤材料微觀形貌為50~200 nm 的海膽狀產物;複閤材料 VO 2/V6 O 13的脫嵌鎂過程均為兩步,僅有部分鎂離子能可逆脫嵌;在0.3 mA/cm2充放電密度下,複閤材料 VO 2/V6 O 13的首次放電比容量高達365 mAh/g,放電平檯約為-0.50 V(vs.SCE),經過11次充放電循環,它的放電比容量仍然有160 mAh/g,保持瞭較好的充放電循環性能,但是複閤材料 VO 2/V6 O 13的脫嵌鎂過程仍然受到鎂離子擴散控製。總的來看,複閤材料 VO 2/V6 O 13是一類有希望用于鎂可充電池的釩繫正極材料。
채용용효-응효법결합을순초성법제비료복합재료 VO 2/V6 O 13。통과 SEM、XRD、CV、CP 방법대복합재료 VO 2/V6 O 13적미관형모、상조성、전화학저미성능진행료연구。결과표명,통과을순초성화 Ar기분단소환원 V2 O 5가득도량상복합물45% VO 2화55%V6 O 13;복합재료미관형모위50~200 nm 적해담상산물;복합재료 VO 2/V6 O 13적탈감미과정균위량보,부유부분미리자능가역탈감;재0.3 mA/cm2충방전밀도하,복합재료 VO 2/V6 O 13적수차방전비용량고체365 mAh/g,방전평태약위-0.50 V(vs.SCE),경과11차충방전순배,타적방전비용량잉연유160 mAh/g,보지료교호적충방전순배성능,단시복합재료 VO 2/V6 O 13적탈감미과정잉연수도미리자확산공제。총적래간,복합재료 VO 2/V6 O 13시일류유희망용우미가충전지적범계정겁재료。
In this work,the VO 2/V6 O 1 3 composites have been prepared by sol-gel method combined with etha-nol ultrasonic method.The composites were characterized to study the micro-morphology,phase composition and electrochemical Mg-intercalation performances by SEM,XRD,CV,CP,respectively.The results indicated that the composites including 45%VO 2 and 55% V6 O 1 3 were synthesized with reducing V2 O 5 by sonicating in ethanol and calcinning in Ar.The micromorphology of the composites were urchin-like with the dimension of 50-200 nm.The CVs showed that there were two-step procedure of Mg-ion insertion and extraction in the com-posites and only a portion of Mg ion could insert and extract reversiblely.At current density of 0.3 mA/cm2 ,the initial discharge specific capacity of the VO 2/V6 O 1 3 reached 365 mAh/g and the initial discharge plateau poten-tial was approximately - 0.5 V(vs.SCE).After 1 1 discharge-charge cycle,the specific capacity still reached 1 60 mAh/g,exhibiting better charge-discharge performance.However,the insertion and extraction process of the VO 2/V6 O 1 3 composite was controlled by the diffusion of Mg ion.In summary,the VO 2/V6 O 1 3 composite was a promising cathode material for Mg rechargeable batteries.
