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中文摘要:
采用共沉淀法制备氢氧化物前驱体,再在氧气气氛中高温焙烧,制得花状结构和常规球形富锂正极材料Li1.13[Mno.534N‰33c00.23]]0.B702;通过XRD、SEM和恒流充放电测试对样品进行分析。在2.00~4.80V循环,花状与球形富锂材料的0·1C(25mA/g)首次放电比容量分别为298.9mAh/g和277.5mAh/g;在2.50~4.65V循环,2.0c首次放电比容量分别为189.4mAh/g和162.4mAh/g;0.5C循环100次,花状富锂材料的比容量和容量保持率分别为199.6mAh/g和84.7%.球形富锂材料分别为179.8mAh/~和81.7%.花状富锂材料的比夷面教绱大.增加了彘化荤.I主应反墙右别干由觚游溶;彝
英文摘要:
Flower-like structure and spherical lithium-rich materials LiL 13 E Mn0.534 Ni0.233 Co0.233 ]0.87 02 were synthesized by high temperature annealing in oxygen atmosphere with the hydroxide precursors, which were prepared via co-precipitation method. The products were analyzed by XRD, SEM and galvanostatic charge-discharge tests. When cycled in 2.00 ~ 4. 80 V, the initial specific discharge capacities of flower-like and spherical lithium-rich materials were 298. 9 mAh/g and 277. 5 mAlCg at 0. 1 C(25 mA/g) ,res- pectively,when cycled in 2.50 -4. 65 V,the initial specific discharge capacity 189. 4 mAh/g and 162. 4 mAh/g at 2.0 C,respec- tively. After 100 cycles at 0. 5 C,the specific capacity and capacity retention of flower-like lithium-rich materials were 199. 6 mAh/g and 84. 7%, respectively, spherical lithium-rich materials was 179. 8 mAh/g and 81.7%, respectively. Flower-like lithium-rich material had larger specific surface area, increased the electrochemical reaction area and allowed better penetration of electrolyte.
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