固相燃烧法合成LiNi0.10ZnxMn1.90-xO4(x≤0.15)正极材料及其电化学性能研究

梁林巧; 郭俊明; 杨灵艳; 苏长伟; 段开娇; 向明武; 白玮

doi:10.7540/j.ynu.20190433

固相燃烧法合成LiNi_0.10Zn_xMn_1.90-xO₄(x≤0.15)正极材料及其电化学性能研究

Synthesis of LiNi_0.10Zn_xMn_1.90-_xO₄ (x ≤ 0.15) cathode materials synthesized by solid state combustion and its electrochemical properties

摘要

摘要: 用固相燃烧法合成LiNi_0.10Zn_xMn_1.90-_xO₄ (x≤0.15)正极材料. XRD与SEM表明，所有样品都属于LiMn₂O₄材料典型的尖晶石结构，无杂相生成，且均为分散性好、结晶性高的类球多面体，颗粒尺寸为100～200 nm. 其中，LiNi_0.10Zn_0.02Mn_1.88O₄样品的粒径相对较小，为130 nm. 电性能结果表明，LiNi_0.10Zn_0.02Mn_1.88O₄样品具有优异的循环稳定性和倍率性能，在1 C循环1 000次后可维持76.3%的容量保持率，在较高倍率5 C、10 C和20 C，分别释放出98.0，91.7 mA·h·g⁻¹和88.8 mA·h·g⁻¹的比容量，表现出最优的电化学性能.

Abstract: LiNi_0.10Zn_xMn_1.90-_xO₄ (x≤0.15) cathode materials were synthesized by solid phase combustion method. XRD and SEM show that all samples belong to spinel structure typical of LiMn₂O₄ material, no impurity formation. And all of them are spheroidal polyhedrons with good dispersibility and high crystallinity, the particle size is 100—200 nm. Among them, the LiNi_0.10Zn_0.02Mn_1.88O₄ sample has a relatively small particle size of 130 nm. The results of electrical performance show that the LiNi_0.10Zn_0.02Mn_1.88O₄ sample has excellent cycle stability and rate performance, and it maintains a capacity retention rate of 76.3% after 1 000 cycles at 1 C. At higher rates of 5 C, 10 C and 20 C, higher specific capacities of 98.0, 91.7 and 88.8 mA·h·g⁻¹are released, respectively. It shows optimal electrochemical performance.

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固相燃烧法合成LiNi0.10ZnxMn1.90-xO4(x≤0.15)正极材料及其电化学性能研究

Synthesis of LiNi0.10ZnxMn1.90-xO4 (x ≤ 0.15) cathode materials synthesized by solid state combustion and its electrochemical properties

固相燃烧法合成LiNi_0.10Zn_xMn_1.90-xO₄(x≤0.15)正极材料及其电化学性能研究

Synthesis of LiNi_0.10Zn_xMn_1.90-_xO₄ (x ≤ 0.15) cathode materials synthesized by solid state combustion and its electrochemical properties