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Wrinkled, partially-graphitized carbon encapsulated silicon with preformed voids as lithium-ion battery anode with enhanced cyclic and rate performances

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Abstract It is challenging to conveniently synthesize silicon/carbon composites that simultaneously possess some important attributes which can enhance the cyclic and rate performances of silicon-based anode, such as partial graphitization,… Click to show full abstract

Abstract It is challenging to conveniently synthesize silicon/carbon composites that simultaneously possess some important attributes which can enhance the cyclic and rate performances of silicon-based anode, such as partial graphitization, flexible nanostructure, preformed spaces, and optimized pore structure. Herein, we utilize a MgO product obtained from magnesiothermic reduction as an autogenetic template and catalyst to prepare wrinkled, graphitized carbon encapsulated silicon composite with preformed spaces. As a result, the as-fabricated composite exhibits a high specific capacity of ~983 mAh g-1 at a current density of 1.2 A g-1, and it is able to achieve 60% capacity retention after 400 cycles. Even under a high current density of 3.2 A g-1, the composite is still able to deliver a specific capacity of ~790 mAh g-1. Based on the post-mortem investigation, the anode exhibits low impedance and complete encapsulated structure after repeated cycling.

Keywords: cyclic rate; encapsulated silicon; graphitized carbon; carbon; rate performances; carbon encapsulated

Journal Title: Composites Communications
Year Published: 2021

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