新型炭材料
新型炭材料
신형탄재료
NEW CARBON MATERIALS
2009年
4期
359-363
,共5页
官亦标%吴锋%白莹%吴川
官亦標%吳鋒%白瑩%吳川
관역표%오봉%백형%오천
LiFePO_4%包覆%掺杂%倍率性能%振实密度
LiFePO_4%包覆%摻雜%倍率性能%振實密度
LiFePO_4%포복%참잡%배솔성능%진실밀도
LiFePO_4%Coated%Doped%Rate performance%Tap density
为了研究非金属元素包覆和金属元素掺杂对LiFePO_4的电化学性能和振实密度的影响,用固相反应法制备了炭包覆的LiFePO_4/C和铜掺杂的LiFe_(0.95)Cu_(0.05)PO_4正极材料,并对所制材料进行了XRD、SEM、充放电循环、倍率性能和振实密度的测试.结果显示:LiFePO_4/C和LiFe_(0.95)Cu_(0.05)PO_4的循环平均容量分别达到147mAh/g和131mAh/g;在高倍率放电时,LiFe_(0.95)Cu_(0.05)PO_4的容量衰减远大于LiFePO_4/C.LiFePO_4/C材料的各项电化学性能都优于LiFe_(0.95)Cu_(0.05)PO_4材料,而LiFe_(0.95)Cu_(0.05)PO_4材料的振实密度远大于LiFePO_4/C材料的振实密度,前者是后者的1.5倍.
為瞭研究非金屬元素包覆和金屬元素摻雜對LiFePO_4的電化學性能和振實密度的影響,用固相反應法製備瞭炭包覆的LiFePO_4/C和銅摻雜的LiFe_(0.95)Cu_(0.05)PO_4正極材料,併對所製材料進行瞭XRD、SEM、充放電循環、倍率性能和振實密度的測試.結果顯示:LiFePO_4/C和LiFe_(0.95)Cu_(0.05)PO_4的循環平均容量分彆達到147mAh/g和131mAh/g;在高倍率放電時,LiFe_(0.95)Cu_(0.05)PO_4的容量衰減遠大于LiFePO_4/C.LiFePO_4/C材料的各項電化學性能都優于LiFe_(0.95)Cu_(0.05)PO_4材料,而LiFe_(0.95)Cu_(0.05)PO_4材料的振實密度遠大于LiFePO_4/C材料的振實密度,前者是後者的1.5倍.
위료연구비금속원소포복화금속원소참잡대LiFePO_4적전화학성능화진실밀도적영향,용고상반응법제비료탄포복적LiFePO_4/C화동참잡적LiFe_(0.95)Cu_(0.05)PO_4정겁재료,병대소제재료진행료XRD、SEM、충방전순배、배솔성능화진실밀도적측시.결과현시:LiFePO_4/C화LiFe_(0.95)Cu_(0.05)PO_4적순배평균용량분별체도147mAh/g화131mAh/g;재고배솔방전시,LiFe_(0.95)Cu_(0.05)PO_4적용량쇠감원대우LiFePO_4/C.LiFePO_4/C재료적각항전화학성능도우우LiFe_(0.95)Cu_(0.05)PO_4재료,이LiFe_(0.95)Cu_(0.05)PO_4재료적진실밀도원대우LiFePO_4/C재료적진실밀도,전자시후자적1.5배.
The effects of a carbon coating and copper doping on the electrochemical performance and tap density of a LiFePO_4 cathode for lithium ion batteries were investigated by XRD, SEM, charge/discharge cycle tests, rate tests and tap density tests. Results showed that the average discharge capacity of LiFePO_4/C and LiFe_(0.95)Cu_(0.05)PO_4 were 147 mAh/g and 131 mAh/g respectively. The capacity fading rate of LiFe_(0.95)Cu_(0.05)PO_4 was much larger than that of LiFePO_4/C in a high-rate discharging test. The electrochemical performance of LiFePO_4/C was better than that of LiFe_(0.95)Cu_(0.05)PO_4, but the tap density of the latter was 1.5 times as large as that of the former.
