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Boosting lithium storage performance of Si nanoparticles via thin carbon and nitrogen/phosphorus co‐doped two‐dimensional carbon sheet dual encapsulation

Chengzhi Ke, Fang Liu, Zhiming Zheng, Hehe Zhang, Meng‐Ting Cai, Miao Li, Qizhang Yan, Huixin Chen, Qiaobao Zhang

2021Rare Metals138 citationsDOI

Abstract

Abstract Silicon (Si) is a promising anode candidate for next‐generation lithium‐ion batteries (LIBs), but it suffers from poor electronic conductivity and dramatic volume variation during cycling, which poses a critical challenge for stable battery operation. To mitigate these issues simultaneously, we propose a “double carbon synergistic encapsulation” strategy, namely thin carbon shell and nitrogen/phosphorus co‐doped two‐dimensional (2D) carbon sheet dual encapsulate Si nanoparticles (denoted as 2D NPC/C@Si). This double carbon structure can serve as a conductive medium and buffer matrix to accommodate the volume expansion of Si nanoparticles and enable fast electron/ion transport, which promotes the formation of a stable solid electrolyte interphase film during cycling. Through structural advantages, the resulting 2D NPC/C@Si electrode demonstrates a high reversible capacity of 592 mAh·g −1 at 0.2 A·g −1 with 90.5% excellent capacity retention after 100 cycles, outstanding rate capability (148 mAh·g −1 at 8 A·g −1 ), and superior long‐term cycling stability (326 mAh·g −1 at 1 A·g −1 for 500 cycles, 86% capacity retention). Our findings elucidate the development of high‐performance Si@C composite anodes for advanced LIBs.

Topics & Concepts

Materials scienceAnodeNanoparticleElectrolyteChemical engineeringCarbon fibersConductivityNanotechnologyElectrodeComposite numberComposite materialEngineeringPhysical chemistryChemistryAdvancements in Battery MaterialsAdvanced Battery Materials and TechnologiesSupercapacitor Materials and Fabrication
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