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Synergistic nanostructure and heterointerface design propelled ultra-efficient in-situ self-transformation of zinc-ion battery cathodes with favorable kinetics

journal contribution
posted on 2024-11-17, 16:36 authored by Hao Luo, Bo Wang, Fangdong Wu, Jiahuang Jian, Kai Yang, Fan Jin, Bowen Cong, Yu Ning, Yu Zhou, Dianlong Wang, Huakun Liu, Shixue Dou
In-situ self-transformation is proved to be an effective strategy to design high-performance cathodes for aqueous zinc-ion batteries (ZIBs). However, the inferior transformation efficiencies during phase transition limit its further application. Herein, a 3D spongy VO -graphene (VO -rG) precursor has been designed for achieving the ultra-efficient in-situ self-transformation process from VO -rG into multifaceted V O ·nH O-graphene composite (VOH-rG). Benefiting from the highly conductive heterointerfaces, rich reaction sites and numerous ions diffusion channels of VO -rG, almost 100% VO nanobelts are converted into VOH during the first charging with few side reactions, indicating a highly efficient transformation kinetics. This strategy enables structural modulation from micro-nano level to molecular level by integrating pre-inserted H O molecules and constructing 3D porous heterogeneous architecture into the VOH-rG cathode simultaneously, leading to fast and enduring Zn (de)intercalation kinetics. Consequently, the VOH-rG cathode exhibits high capacity of 466 mA h g at 0.1 A g , superior rate performance (190 mA h g even at 20 A g ) and excellent cycling stability with 100% capacity retention over 5000 cycles. Moreover, the assembled VOH-rG//Zn flexible quasi-solid-state batteries also present impressive performance. Such an ultra-efficient in-situ self-transformation strategy would pave a new way to explore promising electrode materials for advanced energy storage. 2 2 2 2 5 2 2 2 2 2+ −1 −1 −1 −1

Funding

Heilongjiang Postdoctoral Science Foundation (LBH-TZ1707)

History

Journal title

Nano Energy

Volume

81

Language

English

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