Immobilizing primary electroactive nanomaterials in porous carbon matrix is an effective approach for boosting the electrochemical performance of potassium-ion batteries(PIBs)because of the synergy among functional components.Herein,an integrated hybrid architecture composed of ultrathin Cu3P nanoparticles(～20 nm)confined in porous carbon nanosheets(Cu3PcNPCSs)as a new anode material for PIBs is synthesized through a rational self-designed self-templating strategy.Benefiting from the unique structural advantages including more active heterointerfacial sites,intimate and stable electrical contact,effectively relieved volume change,and rapid K+ion migration,the Cu3PcNPCSs indicate excel-lent potassium-storage performance involving high reversible capacity,exceptional rate capability,and cycling stability.Moreover,the strong adsorption of K+ions and fast potassium-ion reaction kinetics in Cu3PcNPCSs is verified by the theoretical calculation investigation.Noted,the intercalation mechanism of Cu3P to store potassium ions is,for the first time,clearly confirmed during the electrochemical process by a series of advanced characterization techniques.

Yuanxing Yun;Baojuan Xi;Yu Gu;Fang Tian;Weihua Chen;Jinkui Feng;Yitai Qian;Shenglin Xiong

Key Laboratory of Colloid and Interface Chemistry,Ministry of Education,School of Chemistry and Chemical Engineering,State Key Laboratory of Crystal Materials,Shandong University,Jinan 250100,Shandong,China;Key Laboratory of Material Processing and Mold of Ministry of Education,Zhengzhou University,Zhengzhou 450001,Henan,China;Key Laboratory for Liquid-Solid Structural Evolution and Processing of Materials,Ministry of Education,School of Materials Science and Engineering,Shandong University,Jinan 250061,Shandong,China

能源化学

[1]Yuanxing Yun;Baojuan Xi;Yu Gu;Fang Tian;Weihua Chen;Jinkui Feng;Yitai Qian;Shenglin Xiong-.Cu3P nanoparticles confined in nitrogen/phosphorus dual-doped porous carbon nanosheets for efficient potassium storage)[J].能源化学,2022(03):339-347

Immobilizing,Cu3PcNPCSs,heterointerfacial,K+ion,Noted

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