李新海2, 肖卓炳1, 吳顯明1, 劉文萍1
( 1. 吉首大學 化學化工學院, 吉首 416000;
2. 中南大學 冶金科學與工程學院, 長沙 410083)
摘 要: 以SnCl4為原料, 尿素為沉淀劑, 采用均勻沉淀法制備了SnO2-石墨復合粉, 用XRD、 SEM、 TG-DTA以及電化學方法對復合粉進行了表征。 結果表明: 由于SnO2和石墨表面上不可避免的電化學還原, 導致復合粉的首次循環(huán)具有較大的不可逆容量, 經600 ℃煅燒4 h的復合粉具有較高的可逆容量和循環(huán)性能; 含30%SnO2的復合粉在0.1 C的電流倍率下進行充放電, 其初始容量達到520.0 mA·h/g, 經30次循環(huán)后平均每次循環(huán)的容量衰減率為0.6 %, 表明SnO2-石墨復合粉是一種具有發(fā)展前途的鋰離子電池負極材料。
關鍵字: SnO2; 復合粉; 鋰離子電池; 均勻沉淀法; 電化學性能
LI Xin-hai2, XIAO Zhuo-bing1, WU Xian-ming1, LIU Wen-ping1
( 1. College of Chemistry and Chemical Engineering,
Jishou University, Jishou 416000, China;
2. School of Metallurgical Science and Engineering,
Central South University, Changsha 410083, China)
Abstract: SnO2-graphite composites were prepared by homogeneous precipitation technique using SnCl4 as starting materials and urea as precipitator. The SnO2-graphite composites were characterized by various electrochemical methods in combination with powder X-ray diffraction (XRD), scanning electron microscope (SEM), thermogravimertric (TG) analysis and differential thermal analysis (DTA). Results show that SnO2-graphite composites have good reversible capacities and cycle life, although their irreversible capacity losses in the first cycles are very high because of the electro-reduction to convert the SnO2 into Sn and the SEI formation both on the surfaces of graphite and SnO2. SnO2-graphite composites deliver a charge capacity of more than 520 mA·h/g and the capacity loss per cycle is about 0.6% after being cycled 30 times, which indicates that SnO2-graphite composites are promising anode materials for Li ion battery applications.
Key words: SnO2; composites; lithium-ion battery; homogeneous precipitation technique; electrochemical property
