中国有色金属学报
中國有色金屬學報
중국유색금속학보
THE CHINESE JOURNAL OF NONFERROUS METALS
2013年
5期
1351-1355
,共5页
宋刘斌%李新海%王志兴%郭华军%肖忠良%唐朝辉
宋劉斌%李新海%王誌興%郭華軍%肖忠良%唐朝輝
송류빈%리신해%왕지흥%곽화군%초충량%당조휘
锂离子电池%Li4Ti5O12%Fe3+掺杂%负极材料
鋰離子電池%Li4Ti5O12%Fe3+摻雜%負極材料
리리자전지%Li4Ti5O12%Fe3+참잡%부겁재료
lithium ion batteries%Li4Ti5O12?Fe3+-doping%anode materials
采用高温固相法合成Li4FexTi5?xO12(x=0.025,0.1,0.2)负极材料.通过X射线衍射、扫描电镜、充放电性能测试等对掺杂Fe3+的Li4Ti5O12材料的组成、结构、形貌进行表征,并对其电化学性能进行研究.结果表明,所合成的材料具有良好的尖晶石结构,无杂相.适当Fe3+掺杂能细化材料,提高材料的电子导电性,使材料的循环性能得到改善.Li4Fe0.025Ti4.975O12的充电容量最佳,0.1C倍率下首次充电比容量达到162.5 mA?h/g,循环性能较好.
採用高溫固相法閤成Li4FexTi5?xO12(x=0.025,0.1,0.2)負極材料.通過X射線衍射、掃描電鏡、充放電性能測試等對摻雜Fe3+的Li4Ti5O12材料的組成、結構、形貌進行錶徵,併對其電化學性能進行研究.結果錶明,所閤成的材料具有良好的尖晶石結構,無雜相.適噹Fe3+摻雜能細化材料,提高材料的電子導電性,使材料的循環性能得到改善.Li4Fe0.025Ti4.975O12的充電容量最佳,0.1C倍率下首次充電比容量達到162.5 mA?h/g,循環性能較好.
채용고온고상법합성Li4FexTi5?xO12(x=0.025,0.1,0.2)부겁재료.통과X사선연사、소묘전경、충방전성능측시등대참잡Fe3+적Li4Ti5O12재료적조성、결구、형모진행표정,병대기전화학성능진행연구.결과표명,소합성적재료구유량호적첨정석결구,무잡상.괄당Fe3+참잡능세화재료,제고재료적전자도전성,사재료적순배성능득도개선.Li4Fe0.025Ti4.975O12적충전용량최가,0.1C배솔하수차충전비용량체도162.5 mA?h/g,순배성능교호.
Li4FexTi5?xO12(x=0.025, 0.1, 0.2) anode materials was synthesized by solid-state reaction. Its component, structure, morphology and electrochemical properties were characterized by XRD, SEM and charge-discharge tests. The results show that the synthesized material is pure spinel phase. The particle size of samples with Fe3+-doping decreases in a certain extent, and appropriate amount of Fe3+-doping in Li4Ti5O12 leads to obvious increase in initial and cycling stability, which are ascribe to the smaller particle and better electronic conduction. Li4Fe0.025Ti4.975O12 sample has higher charge capacities than other samples. The initial charge specific capacity of Li4Fe0.025Ti4.975O12 is 162.5 mA?h/g at 0.1 C, showing that it has good cycling behavior.
