依据电化学原理,提出改进液相共沉淀制备LiFePO_4前驱体的方法.以价廉稳定的Fe~(3+)化合物作铁源,在共沉淀的过程中不需要惰性气体保护,然后在较低温度下(550 ℃)于氮气气氛中焙烧得到橄榄石型LiFePO_4.研究烧结温度对产物性能的影响,550 ℃下烧结得到了电化学性能优良的纯相LiFePO_4.通过改进共沉淀制备掺铜的LiFePO_4正极材料,它具有153.10 mAh·g~(-1)的初始容量(0.1 C),比未掺杂的LiFePO_4提高了11%.经过30次循环后,容量降到140mAh·g~(-1).
This paper studied the precursor of LiFePO_4 cathode materials synthesized by improved liquid coprecipitation method on the basis of electrochemical theory. Fe~(3+) compound was used as iron source for its low cost and good stability, and the process of co-precipitation was not necessary under inert gas atmosphere. Then, an order olivine structure LiFePO_4 was synthesized by roasting at lower temperature (550 ℃) in nitrogen atmosphere and the pure LiFePO_4 with good electro-chemical performance could be synthesized after the study of influence of roasting temperature on the properties of products. The testing results show that an initial discharge capacity of 153.10 mAh·g~(-1) at 0.1 C, was achieved for the LiFePO_4 material doped with Cu~(2+) prepared by improved liquid co-precipitation method, which is 11% higher than that without doping. What's more, the capacity decreased to 140 mAh·g~(-1) after circulations of 30 times.
参考文献
| [1] | Yamada A;Chung S C;Hino kuma K .[J].Journal of the Electrochemical Society,2001,148(03):224. |
| [2] | Ketack Kim;Ji Hwa Jeong;Ick-Jun Kim et al.[J].J Power Soc,2007,167:524. |
| [3] | 杨蓉,赵铭姝,赵青,马红利,宋晓平.锂离子电池正极材料LiFePO4的电化学性能改进[J].化工学报,2006(03):674-677. |
| [4] | 张培新,文衍宣,刘剑洪,许启明,任祥忠,张黔玲,罗仲宽.化学沉淀法制备掺杂磷酸铁锂的结构和性能研究[J].稀有金属材料与工程,2007(06):954-958. |
| [5] | Wang L N;Zhang Z G;Zhang K L .[J].J Power Soc,2007,167:200. |
| [6] | Jae-Kwang Kim;Gouri Cheruvally;Jae-Won Choi et al.[J].J Power Soc,2007,167:211. |
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