用于高性能锌硫电池的可调多孔碳球中纳米反应器驱动的均匀纳米硫化锌沉积

Nanoreactor-Driven Uniform Nano ZnS Deposition in Tunable Porous Carbon Spheres for High-Performance Zn-S Batteries.

作者信息

Jiang Yuxuan, Sun Bingxin, Wang Dan, Yan Yan, Shakouri Mohsen, Chen Han-Yi, Zhang Wang, Zhu Rongmei, Pang Huan

机构信息

School of Chemistry and Chemical Engineering, Yangzhou University, Yangzhou, Jiangsu, 225009, P. R. China.

Canadian Light Source, University of Saskatchewan, Saskatoon, Saskatchewan, S7N 2V3, Canada.

出版信息

Adv Sci (Weinh). 2025 Jul;12(28):e2505218. doi: 10.1002/advs.202505218. Epub 2025 May 8.

DOI:10.1002/advs.202505218

PMID:40344487

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12302613/

Abstract

Zn-S batteries have garnered widespread attention in recent years due to their higher safety and low cost. However, challenges such as incomplete sulfur redox reactions and the tendency of ZnS to agglomerate have impeded the continued advancement of high-performance Zn-S batteries. Hollow hierarchical porous carbon spheres (HCs) are designed as efficient sulfur hosts for Zn-S batteries. The tailored HCs, featuring optimized shell thickness, hierarchical porosity, facilitate uniform nano-ZnS deposition, and improve ion/electron transport, which are revealed by in situ impedance technology. This nano reactor design ensures highly reversible S-ZnS conversion, reducing internal polarization and mitigating structural degradation. Electrochemical tests demonstrate outstanding cycling stability, with minimal capacity decay (0.068%) over 500 cycles, and 463 mAh g reversible capacity at 5 A g. Finite element simulations further confirm the effective stress dispersion of HCs, preserving electrode integrity. This work provides a promising strategy for developing high-performance Zn-S batteries.

摘要

近年来，锌硫电池因其更高的安全性和低成本而受到广泛关注。然而，诸如硫氧化还原反应不完全以及硫化锌团聚倾向等挑战阻碍了高性能锌硫电池的持续发展。空心分级多孔碳球（HCs）被设计为锌硫电池的高效硫宿主。定制的HCs具有优化的壳层厚度和分级孔隙率，有助于均匀的纳米硫化锌沉积，并改善离子/电子传输，这通过原位阻抗技术得以揭示。这种纳米反应器设计确保了高度可逆的硫-硫化锌转化，减少内部极化并减轻结构降解。电化学测试表明其具有出色的循环稳定性，在500次循环中容量衰减极小（0.068%），在5 A g时可逆容量为463 mAh g。有限元模拟进一步证实了HCs有效的应力分散，保持了电极的完整性。这项工作为开发高性能锌硫电池提供了一种有前景的策略。

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用于高性能锌硫电池的可调多孔碳球中纳米反应器驱动的均匀纳米硫化锌沉积

Nanoreactor-Driven Uniform Nano ZnS Deposition in Tunable Porous Carbon Spheres for High-Performance Zn-S Batteries.

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