Improving the performance of lithium manganese phosphate through divalent cation substitution

Chen GY; Wilcox JD; Richardson TJ

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Improving the performance of lithium manganese phosphate through divalent cation substitution

机译：通过二价阳离子取代提高磷酸锰锂的性能

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Highly crystalline samples of LiMnPO4 and its analogs with partial substitution of Mn by divalent Mg, Cu, Zn, and Ni were prepared by hydrothermal synthesis and characterized by X-ray diffraction and infrared spectroscopy. Chemical oxidation produced two-phase mixtures of the initial phases LiMn(1-y)MyPO4 and the delithiated forms, LiyMn(1-y)MyPO4, all with the olivine structure. The extent of oxidation depended upon the quantity of oxidizing agent used and on the identity of the substituent ions. Mg, Ni, and Cu were found to increase the level of delithiation relative to that in pure LiMnPO4. Mg was also shown to reduce the tendency of the oxidized phase to absorb water.

机译：通过水热合成制备了高结晶度的LiMnPO4及其类似物，其中Mn被二价Mg，Cu，Zn和Ni部分取代，并通过X射线衍射和红外光谱进行了表征。化学氧化产生了初始相LiMn（1-y）MyPO4和脱锂形式LiyMn（1-y）MyPO4的两相混合物，均具有橄榄石结构。氧化程度取决于所用氧化剂的量以及取代基离子的种类。相对于纯LiMnPO4，发现Mg，Ni和Cu会增加脱锂水平。还显示了Mg可以减少氧化相吸收水的趋势。

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《Electrochemical and solid-state letters》 |2008年第11期|共5页
作者
Chen GY; Wilcox JD; Richardson TJ;
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正文语种 eng
中图分类电化学、电解、磁化学;
关键词
ELECTROCHEMICALLY ACTIVE LIMNPO4; HYDROTHERMAL SYNTHESIS; CATHODE MATERIALS; ION BATTERIES; LIFEPO4; FE; MN;

机译：电化学活性LIMNPO4;水热合成;阴极材料;离子电池;LIFEPO4;FE;MN;

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1. Improving the performance of lithium manganese phosphate through divalent cation substitution [J] . Chen GY, Wilcox JD, Richardson TJ Electrochemical and solid-state letters . 2008,第11期

机译：通过二价阳离子取代提高磷酸锰锂的性能
2. Multicore-shell carbon-coated lithium manganese phosphate and lithium vanadium phosphate composite material with high capacity and cycling performance for lithium-ion battery [J] . Zhang Jia-feng, Wang Xiao-wei, Zhang Bao, Electrochimica Acta . 2015,第Null期

机译：锂离子电池具有高容量和循环性能的多核壳碳包覆磷酸锂锰和磷酸钒锂复合材料
3. Multicore-shell carbon-coated lithium manganese phosphate and lithium vanadium phosphate composite material with high capacity and cycling performance for lithium-ion battery [J] . Zhang Jia-feng, Wang Xiao-wei, Zhang Bao, Electrochimica Acta . 2015,第Null期

机译：锂离子电池具有高容量和循环性能的多核壳碳包覆磷酸锂锰和磷酸钒锂复合材料
4. HIGH PERFORMANCE DOPED LITHIUM MANGANESE PHOSPHATE CATHODE MATERIALS FOR LITHIUM-ION BATTERIES [C] . Pengjian Zuo, Liguang Wang, Guangyu Cheng ACS National Meeting Exhibition . 2016

机译：高性能掺杂锂锰磷酸锂离子电池的阴极材料
5. Synthesis, characterization and electrochemical evaluation of lithium-manganese phosphates for cathode material in lithium ion batteries. [D] . Ng, Evelyn K. 2006

机译：锂离子电池正极材料磷酸锂锰的合成，表征和电化学评估。
6. Thermodynamics of binding of divalent magnesium and manganese to uridine phosphates: implications for diabetes-related hypomagnesaemia and carbohydrate biocatalysis [O] . Corbin J Zea, Gulden Camci-Unal, Nicola L Pohl 2008

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7. Synthesis, structure, and electrochemical performance of magnesium-substituted lithium manganese orthosilicate cathode materials for lithium-ion batteries [O] . Gummow, R.J., Sharma, N., Peterson, V.K., 2012

机译：锂离子电池用镁取代原硅酸锰锂正极材料的合成，结构和电化学性能

Improving the performance of lithium manganese phosphate through divalent cation substitution

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