Effects of organic phosphorus acid on the core-shell structure and electrochemical properties of LiFePO 4 uniformly wrapped with in-situ growed graphene nanosheets

摘要

AbstractOrganic acid, ethylenebis(nitrilodimethylene)tetraphosphonic acid (EDTMPA), is a kind of eco-friendly phosphorous acid with special chelation and reducing function groups. It has been applied to fabricate LiFePO4@Graphene (LFP@G) nanocomposites. The microstructure and electrochemical properties of the LFP@G have been investigated by X-ray diffraction, scanning electron microscopy, transmission electron microscopy, Raman spectroscopy and electrochemical testing techniques. The results indicate that the graphene is in the form of nano-sized sheets which in-situ growed and wrapped around LiFePO4particles to form a unique core-shell structure. The formation of the core-shell structure is owing to the special chelation and reducing functional groups in the EDTMPA molecules. It is also found that the fabricated LiFePO4@Graphene has a particle size of below 100?nm with high purity. Further on, the fabricated LFP@G exhibits a high reversible capacity of 161.8?mAh g?1at 0.2?C rate, and an excellent rate capacity of 125.9?mAh g?1at 10?C, which shows a great potential as a superior cathode material for lithium-ion batteries. The present work also elucidates the mechanism of how the special core-shell structure LiFePO4@Graphene can benefit the Li+migration during the charge/discharge processes and improve the electronic conductivity of the LFP@G nanocomposites.Graphical abstractDisplay OmittedHighlights?LiFePO4@Graphene nanocomposites is fabricated using EDTMPA as new phosphorus source.?The LiFePO4particles growth can be control due to the chelation effects of EDTMPA.?The EDTMPA can in-situ reduce the GO to form graphene nanosheets onto LFP particles.?The LFP@G displays a core-shell structure and good electrochemical properties.]]>