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机构地区:[1]内蒙古科技大学化学与化工学院,内蒙古包头014010
出 处:《广东化工》2017年第7期8-9,28,共3页Guangdong Chemical Industry
基 金:内蒙古高等学校科学研究项目(NJZZ14160);内蒙古科技大学创新基金项目(2014QDL028);内蒙古科技大学大学生科技创新基金项目(2015024)
摘 要:为了提高锂离子二次电池负极材料Li_4Ti_5O_(12)的能量密度,本研究以LiOH·H_2O、TiO_2、NH_4VO_3为原料,采用水热法合成了一系列Li_4Ti_(5-x)V_xO_(12)(0≤x≤0.20)材料。对所合成的材料进行的分析测试表明,800℃是合成Li_4Ti_(5-x)V_xO_(12)(0≤x≤0.20)最适宜的热反应温度。实验结果还表明,钒掺入Li_4Ti_5O_(12)后,材料仍然保持了尖晶石型结构;同时材料的循环稳定性依然优越,且大倍率充放电特性得到显著改善。因此,与Li_4Ti_5O_(12)材料相比,钒掺杂的Li_4Ti_(5-x)V_xO_(12)材料具有更佳的倍率性能和更高的能量密度,更适用于动力锂离子电池。With the attempt to raise the energy density of Li4Ti5O12, a prospective anode material for LIB, a series of vanadium-doping materials Li4Ti5-xVxO12(0≤x≤0.20) were synthesized by a hydrothermal method. LiOH·H2O, TiO2, and NH4VO3 were used as raw materials, which were mixed in different ratios and processed at several temperatures respectively. Results of analysis indicate that 800 ℃ is the most appropriate pyroreaction temperature. XRD shows that the V-doping materials keep pure spinel structure as Li4Ti5O12. According to the data obtained from electrochemical test, the cycling performance of the as-prepared materials Li4Ti5-xVxO12(0≤x≤0.20) is still superior and their rate capability is improved. In conclusion, it is found that conlpared with Li4Ti5O12, the vanadiun3-doping materials Li4Ti5-xVxO12 as-prepared in this study can substantially enhance the density and rate capability oflithiunl-ion batteries.
关 键 词:锂离子二次电池 Li4Ti5-xVxO12 水热法 能量密度
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