水系锂离子电池负极材料LiTi2(PO4)3的研究进展

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水系锂离子电池负极材料LiTi₂(PO₄)₃的研究进展

王禹桐¹(

), 张非凡¹, 许乃才², 王春霞¹, 崔立山¹, 黄国勇¹(

)

Research Progress of LiTi₂(PO₄)₃ Anode for Aqueous Lithium-ion Batteries

WANG Yutong¹(

), ZHANG Feifan¹, XU Naicai², WANG Chunxia¹, CUI Lishan¹, HUANG Guoyong¹(

)

图5. 四种包覆碳源的倍率性能图
(a, b)^[72]((a)蓝、黑分别为聚多巴胺和酚醛树脂; (b)蓝、黑分别为聚丙烯腈和葡萄糖), 具有均质碳层的介孔LiTi₂(PO₄)₃中Li⁺插入的机制示意图(c)^[75], rGO-LTP的合成步骤示意图(d)^[78], LC和LCG在5C下循环1000次的循环性能曲线(e)^[80]

Fig. 5. Comparison chart of rate performance of four coated carbon sources
(a, b)^[72](Blue and black in (a) indicating polydopamine and phenolic resin; blue and black in (b) indicating polyacrylonitrile and glucose), schematic illustration of the tentative Li⁺ insertion mechanism in mesoporous LiTi₂(PO₄)₃ with carbon coating layer (c)^[75], schematic diagram of the synthesis steps of rGO-LTP (d)^[78], and cyclic performance of LC and LCG anodes at 5C for 1000 cycles (e)^[80]Colorful figures are available on website