The mosaic structure design to improve the anchoring strength of SiOx@C@Graphite anode |
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| Authors: | H. Dong J. Wang H. Ding P. Wang R. Song N. Zhang F. Li S. Li |
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| Affiliation: | 1. School of Petrochemical Technology, Lanzhou University of Technology, Lanzhou 730050, PR China;2. Key Laboratory of Low Carbon Energy and Chemical Engineering of Gansu Province, Lanzhou 730050, PR China;3. Gansu Engineerin Laboratory of Cathode Material for Lithium-ion Battery, Lanzhou 730050, PR China;4. School of Materials Science and Engineering, Linyi University, Linyi 276005, PR China |
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| Abstract: | Silicon oxide (SiOx)-based anodes have aroused great interest as the most promising alternative anode in the practical application of high-performance lithium-ion batteries. However, the electrochemical performance is inhibited because of the large volume change, and the electrode structure deteriorates during the cycling process, which hinders their practical application. In this article, a novel fabrication method for the synthesis of high-performance SiOx@C@Graphite composites is presented. SiOx particles are anchored on the graphite surface by chemical vapor deposition and compression molding. This structure makes up the shortcomings of poor electrical conductivity and poor bonding strength between SiOx and graphite particles. It is beneficial to form a stable solid electrolyte interface and helps to maintain the structural integrity of electrode materials. As a result, the synthetic SiOx@C@Graphite anode shows a high reversible capacity (2698.8 mA h), excellent cycle stability (about 76.9% capacity retention for 500 cycles) and a superior rate ability. Our research hopes to provide a new idea for improving the bonding strength of the surface coating. |
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| Keywords: | Bonding strength High performance |
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