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作 者:唐致远[1] 余明远[1] 薛建军 高飞[1] 崔燕 黎良栋
机构地区:[1]天津大学化工学院,天津300072 [2]广州鹏辉电池有限公司,广州511483
出 处:《物理化学学报》2007年第1期134-138,共5页Acta Physico-Chimica Sinica
基 金:国家自然科学基金(20273047);教育部博士点基金(20020056045)资助项目
摘 要:采用SAC(starch-assisted combustion)法和高温固相法分别合成锂离子电池正极材料LiNi0.01Co0.01Mn1.98O4,使用X射线衍射仪、BET法、粒度分析仪及扫描电子显微镜对合成材料的结构及物理性能进行了表征.将合成材料作为锂离子电池正极活性材料,用循环伏安、交流阻抗及充放电测试的电化学测试方法对材料进行了电化学的研究.结果表明,两种方法制备的材料均为纯尖晶石相;SAC法制备的LiNi0.01Co0.01Mn1.98O4颗粒小,粒径分布均匀,具有更好的结晶形态.SAC法制备材料在0.1C充放电条件下的初始放电容量为121.2mAh·g-1,100次循环后容量损失仅为3.5%,5C放电的初始放电容量则达到了103.5mAh·g-1.SAC法的一步工序具有操作简单、成本低廉的优势,有望实现商业应用.LiNi0.01Co0.01Mn1.98O4 materials were prepared by two different methods: starch-assisted combustion (SAC), and traditional solid-state reaction. The product characteristics such as phase composition, particle morphology, and size of as-prepared materials were examined with powder X-ray diffraction (XRD), the Brunauer-Emmett-Teller (BET) surface area method, particle size analysis, and analytical scanning electron microscope (SEM), respectively. Both materials exhibited pure spinel structure. The SAC method provided better control of the morphology, particle size, and distribution of the active material. The as-prepared powders were used as positive electrode materials for lithium-ion battery, whose discharge capacity and cycle voltammogram properties were examined. The results showed that the material synthesized by SAC method had high initial specific capacity of 121.2 mAh ·g^-1 and only 3.5% loss of the capacity after 100 cycles at a rate of 0.1C, and the initial specific capacity was 103.5 mAh·g^-1 at a discharge rate of 5C. The single-step process of SAC method is time and cost saving, and thus is promising for commercial application.
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