Mechanically Robust Bismuth-Embedded Carbon Microspheres for Ultrafast Charging and Ultrastable Sodium-Ion Batteries

Pan, Jianhai; Sun, Zhefei; Wu, Xiaoyu; Liu, Tongchao; Xing, Yurui; Chen, Jiawei; Xue, Zhichen; Tang, Dafu; Dong, Xiaoli; Zhang, Hongti; Liu, Haodong; Wei, Qiulong; Peng, Dong‐Liang; Amine, Khalil; Zhang, Qiaobao

doi:10.1021/jacs.4c09824

articleJournal of the American Chemical SocietyJan 14, 2025Closed access

Mechanically Robust Bismuth-Embedded Carbon Microspheres for Ultrafast Charging and Ultrastable Sodium-Ion Batteries

JPJianhai Pan ZSZhefei Sun XWXiaoyu Wu TLTongchao Liu YXYurui Xing

Xiamen University · Argonne National Laboratory · +6 more institutions

PubMed

Indexed incrossrefpubmed

Abstract

Advancements in the development of fast-charging and long-lasting microstructured alloying anodes with high volumetric capacities are essential for enhancing the operational efficiency of sodium-ion batteries (SIBs). These anodes, however, face challenges such as declined cyclability and rate capability, primarily due to mechanical degradation reduced by significant volumetric changes (over 252%) and slow kinetics of sodium-ion storage. Herein, we introduce a novel anode design featuring densely packed bismuth (Bi) embedded within highly conductive carbon microspheres to overcome the aforementioned challenges. Remarkably, the high loading Bi anode within carbon microspheres with a high tap density of 2.59 g…

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Topics & keywords

Topics

Keywords

Chemistry
Bismuth
Microsphere
Ion
Ultrashort pulse
Carbon fibers
Sodium
Nanotechnology

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