山东化工
山東化工
산동화공
SHANDONG CHEMICAL INDUSTRY
2014年
7期
37-39,42
,共4页
朱永波%姚文红%郭静静%董娇%贺本林%王玮
硃永波%姚文紅%郭靜靜%董嬌%賀本林%王瑋
주영파%요문홍%곽정정%동교%하본림%왕위
LiFePO4%石墨烯%共沉淀-焙烧法
LiFePO4%石墨烯%共沉澱-焙燒法
LiFePO4%석묵희%공침정-배소법
lithium iron phosphate%graphene%co - precipitation - calcination
以氧化石墨烯和抗坏血酸为包覆碳源,采用共沉淀-焙烧法制备了 LiFePO4/ G 和 LiFePO4/ C 正极材料,并通过 X -射线衍射图谱(XRD),扫描电镜(SEM)对合成材料进行结构及形貌分析,并采用循环伏安(CV)、恒电流充放电等表征手段对合成材料进行电化学性能测试。结果表明,石墨烯和碳颗粒的引入没有改变 LiFePO4橄榄石晶体结构,石墨烯在细化颗粒和均匀分布上的效果优于普通碳颗粒,使 LiFePO4/ G 表现出更加优越的电化学性能,在0.1C 倍率时的放电容量为134 mAh·g -1,充放电循环20次后容量保持率可达到98.8%。
以氧化石墨烯和抗壞血痠為包覆碳源,採用共沉澱-焙燒法製備瞭 LiFePO4/ G 和 LiFePO4/ C 正極材料,併通過 X -射線衍射圖譜(XRD),掃描電鏡(SEM)對閤成材料進行結構及形貌分析,併採用循環伏安(CV)、恆電流充放電等錶徵手段對閤成材料進行電化學性能測試。結果錶明,石墨烯和碳顆粒的引入沒有改變 LiFePO4橄欖石晶體結構,石墨烯在細化顆粒和均勻分佈上的效果優于普通碳顆粒,使 LiFePO4/ G 錶現齣更加優越的電化學性能,在0.1C 倍率時的放電容量為134 mAh·g -1,充放電循環20次後容量保持率可達到98.8%。
이양화석묵희화항배혈산위포복탄원,채용공침정-배소법제비료 LiFePO4/ G 화 LiFePO4/ C 정겁재료,병통과 X -사선연사도보(XRD),소묘전경(SEM)대합성재료진행결구급형모분석,병채용순배복안(CV)、항전류충방전등표정수단대합성재료진행전화학성능측시。결과표명,석묵희화탄과립적인입몰유개변 LiFePO4감람석정체결구,석묵희재세화과립화균균분포상적효과우우보통탄과립,사 LiFePO4/ G 표현출경가우월적전화학성능,재0.1C 배솔시적방전용량위134 mAh·g -1,충방전순배20차후용량보지솔가체도98.8%。
Graphene oxide and L - ascorbic acid were used as carbon - coating sources for the synthesis of LiFePO4 / G and LiFePO4 / C cathode materials via a co - precipitation - calcination method. XRD and SEM were available for the characterization of the morphology and structure,CV and galvanostatic discharge - charge tests were used to test the electrochemistry properties. The results indicated that the introduction of graphene sheets and carbon particles did not change the olivine crystal structure,graphene sheets were more effective than carbon particles on deriving fine and uniform particles,which showed the excellent electrochemistry performances of LiFePO4 / G compared with LiFePO4 / C,and the initial discharge capacity of LiFePO4 / G at 0. 1C was 134mAh·g - 1;After 20 cycles,the capacity retention was 98. 8% of the initial discharge capacity.
