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In Situ Self‐Adaptive Structure Evolution Under Volume Fluctuation Toward High‐Performance Silicon‐Based Anode

Zhenhui Liu, Shizhu Wang, Mingbo Zheng, Yulin Zhang, Ruohan Yu, Xuanning Chen, Wen Xiong, Zhenming Xu, Zechao Zhuang, Yongyao Xia, Laifa Shen

2025Advanced Materials5 citationsDOI

Abstract

Abstract Alloy‐type anodes have become the most promising candidates for the next‐generation energy‐dense lithium‐ion batteries, but structural collapse caused by intrinsic volume fluctuation is the key bottleneck to their practical applications. Herein, an innovative self‐adaptive structural evolution strategy toward electrochemically stable Si‐based alloy‐type anode is proposed, which breaks the conventional ideas that pursue the immutability of the initial structure. Particularly, interconnected commercial Si nanoparticles are covalently coated by amorphous homogeneous composite SiO x /C (h‐SiO x /C) layer, forming a “pea‐like” core–shell structure. After charge–discharge cycling, as‐designed Si@h‐SiO x /C evolves into a more stable micro‐sized “spherical‐like” particle with Si always well protected by h‐SiO x /C layer. Furthermore, inner SEI microdomains and cavities are also formed, which can provide rapid transport pathways for Li + and accommodation space for volume expansion, respectively. Accordingly, Si@h‐SiO x /C displays excellent performances in both half and full pouch cells. 3D reconstruction, in situ optical microscopy and finite element simulations have been conducted to deeply analyze the structural self‐adaptive mechanism. This work provides new insights into optimizing Si‐based alloy anodes via dynamically self‐adaptive regulation, replacing conventional static structural design paradigms.

Topics & Concepts

Materials scienceAnodeAmorphous solidIn situWork (physics)Volume (thermodynamics)NanoparticleChemical physicsParticle (ecology)NanotechnologyFinite element methodComposite numberBottleneckAlloyHomogeneousComposite materialCovalent bondElectrochemistryTransient (computer programming)NanowireQuenching (fluorescence)Representative elementary volumeStack (abstract data type)Molecular dynamicsAdvancements in Battery MaterialsSemiconductor materials and devicesSilicon and Solar Cell Technologies
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