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Ultrafast Dual-Shock Chemistry Synthesis of Ordered/Disordered Hybrid Carbon Anodes: High-Rate Performance of Li-Ion Batteries

Pengfei Huang, Zekun Li, Li Chen, Yuan Li, Zhedong Liu, Jingchao Zhang, Jiawei Luo, Wenjun Zhang, Wei‐Di Liu, Xinxi Zhang, Rongtao Zhu, Yanan Chen

2024ACS Nano38 citationsDOI

Abstract

Graphite exhibits crystal anisotropy, which impedes the mass transfer of ion intercalation and extraction processes in Li-ion batteries. Herein, a dual-shock chemical strategy has been developed to synthesize the carbon anode. This approach comprised two key phases: (1) a thermal shock utilizing ultrahigh temperature (3228 K) can thermodynamically facilitate graphitization; (2) a mechanical shock (21.64 MPa) disrupting the π-π interactions in the aromatic chains of carbon can result in hybrid-structured carbon composed of crystalline and amorphous carbon. The optimized carbon (DSC-200-0.3) demonstrates a capacity of 208.61 mAh/g at a 10C rate, with a significant enhancement comparing with 15 mAh/g of the original graphite. Impressively, it maintains 81.06% capacity even after 3000 charge-discharge cycles. Dynamic process analysis reveals that this superior rate performance is attributed to a larger interlayer spacing facilitating ion transport comparing with the original graphite, disordered amorphous carbon for additional lithium storage sites, and crystallized carbon for enhanced charge transfer. The dual-shock chemical approach offers a cost-effective and efficient method to rapidly produce hybrid-structured carbon anodes, enabling 10C fast charging capabilities in lithium-ion batteries.

Topics & Concepts

Ultrashort pulseAnodeMaterials scienceIonDual (grammatical number)Carbon fibersShock (circulatory)NanotechnologyChemical physicsChemical engineeringChemistryPhysical chemistryOrganic chemistryElectrodePhysicsComposite numberOpticsEngineeringMedicineInternal medicineArtLiteratureComposite materialLaserAdvancements in Battery MaterialsAdvanced Battery Technologies ResearchSupercapacitor Materials and Fabrication
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