Journal
JOURNAL OF ALLOYS AND COMPOUNDS
Volume 711, Issue -, Pages 617-626Publisher
ELSEVIER SCIENCE SA
DOI: 10.1016/j.jallcom.2017.04.046
Keywords
LiFePO4; Multiple doping; Effect tendency; Structure microvariation; Effect rules
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Funding
- Anhui Science & Technology Department Foundation of China [1606c08220]
- Anhui Provincial Natural Science Foundation [1508085ME69]
- National Natural Science Foundation of China [21571004]
- Anhui Innovation Team Project of New Technology in Materialization of Metallurgical Solid Wastes
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This paper is focused on the synergistic effect of Fe site multi-doping, which is a promising target to adequately enhance the electrochemical performance of LiFePO4 by means of cation doping method. Ca, Mn and Zn are selected as the doping elements, and the doping amounts are designed as inequality and equality multi-doping. The effects on structure micro-variation are evaluated in terms of cell parameters and Li-O bond length according to the Rietveld refinement results. The effect tendency on structure micro-variation is approximately corresponding with the electrochemical performance, which can be concluded mainly as (i) in the case of inequality amount doping, Zn predominant doping exhibits more beneficial effect than Mn predominant doping, while Ca predominant doping is beneficial for cycling performance but harmful for rate capability; (ii) in the case of equality amount doping, appropriate doping amount (LiFe0.94Zn0.02Mn0.02Ca0.02PO4) exhibits both merits of Zn predominant doping for rate capability and Ca predominant doping for cycling performance, while high doping amount (LiFe0.88Zn0.04Mn0.04Ca0.04PO4) just exhibits merit of Ca predominant doping; (iii) among these multi-doping samples, LiFe(0.9)sZn(0.03)Mn(0.01)Ca(0.01)PO(4) and LiFe0.94Zn0.02Mn0.02Ca0.02PO4 exhibit better electrochemical performance. This study of synergistic effect has reference significance for the development of cation doping method of modifying LiFePO4. (C) 2017 Elsevier B.V. All rights reserved.
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