Details

Autor(en) / Beteiligte

• Liu, Yongshuai
• Li, Yuhao
• Zuo, Fengkai
• Liu, Jie
• Xu, Yifei
• Yang, Li
• Zhang, Hao
• Wang, Huaizhi
• Zhang, Xiaoyu
• Liu, Chunyang
• Li, Qiang
• Li, Hongsen

Titel

Novel Bimetallic Activated Center Alloying Mechanism Positive Electrodes for Aluminum Storage

Ist Teil von

• Small (Weinheim an der Bergstrasse, Germany), 2022-08, Vol.18 (34), p.e2203236-n/a

Ort / Verlag

Weinheim: Wiley Subscription Services, Inc

Erscheinungsjahr

2022

Quelle

Wiley Online Library

Beschreibungen/Notizen

• Aluminum is the most abundant metal element in the Earth's crust, thus developing the rechargeable aluminum‐ion batteries (AIBs) provides an ideal opportunity to realize cells with pleasing energy‐to‐price ratios. However, the further development of AIBs is plagued by the scarcity of suitable positive electrode materials. Here, for the first time, a tin‐based alloy positive electrode material for AIBs, Co3Sn2 wrapped with graphene oxide (Co3Sn2@GO composite) is well‐designed and investigated to understand the aluminum storage behavior. A series of experimental measurements and theoretical calculations results reveal that a novel “bimetallic activated center alloying reaction” aluminum storage mechanism is occurred on the prepared Co3Sn2 positive electrode. The reversible alloying/de‐alloying process in AlCl3/[EMIm]Cl ionic liquid, where both Co and Sn in Co3Sn2 alloys react electrochemically with Al3+ to form AlxSn and AlyCo is first put forward. This study delineates new insights on the aluminum storage mechanism, which may guide to ultimately exploit the energy benefits of “bimetallic activated center alloying redox”. This work reports a comprehensive study of the battery chemistry in a Co3Sn2‐based positive electrode for aluminum ion storage. Combining experimental measurements with systematic theoretical calculations, a novel “bimetallic activated center alloying” reaction aluminum ion storage mechanism in Al//Co3Sn2 system is revealed.