Ruthenium atoms anchored on oxygen-modified molybdenum disulfide with strong interfacial coupling as efficient and stable catalysts for lithium–oxygen batteries.

Bibliographic Details
Title:	Ruthenium atoms anchored on oxygen-modified molybdenum disulfide with strong interfacial coupling as efficient and stable catalysts for lithium–oxygen batteries.
Authors:	Cao, Xuecheng^1,2 (AUTHOR) caoxc@ujs.edu.cn, Cui, Minghui¹ (AUTHOR), Fang, Kaiqi¹ (AUTHOR), Yan, Liting³ (AUTHOR), Gong, Hongyu³ (AUTHOR), Zhang, Yu¹ (AUTHOR), Zheng, Xiangjun⁴ (AUTHOR), Yang, Ruizhi^1,2 (AUTHOR) yangrz@suda.edu.cn
Source:	Journal of Colloid & Interface Science. Feb2025:Part A, Vol. 679, p234-242. 9p.
Subject Terms:	LITHIUM-air batteries, OSTWALD ripening, MOLYBDENUM disulfide, ELECTROCATALYSTS, ELECTRONIC structure, RUTHENIUM catalysts
Abstract:	[Display omitted] Rechargeable non-aqueous lithium-oxygen batteries (LOBs) have garnered increasing attention owing to their high theoretical energy density. However, their slow cathodic kinetics hinder efficient battery reactions. Nanoscale catalysts can effectively enhance electrocatalytic activity and atomic utilization efficiency. However, the agglomeration of nanoscale catalysts (such as cluster and single atoms) during continuous discharge/charge cycles leads to decreased electrochemical performance and poor cyclic stability. Herein, the ruthenium (Ru) atomic sites anchored on an O-doped molybdenum disulfide (O-MoS 2) catalyst (designated as Ru/O-MoS 2) was fabricated using a facile impregnation and calcination method. Strong Ru-O coupling between Ru atoms and the O-MoS 2 substrate optimizes the localized electronic structure, resulting in improved electrochemical performance and enhanced resistance to Ostwald ripening. When employed as a cathode catalyst for LOBs, Ru/O-MoS 2 catalyst exhibits a high reversible specific capacity (18700.5 (±59.8) mAh g−1), good rate capability, and enhanced long-term stability (115 cycles, 1200 h). This study encourages facile and efficient strategies for the development of effective and stable electrocatalysts for use in LOBs. [ABSTRACT FROM AUTHOR]
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Database:	Academic Search Complete

More Details
ISSN:	00219797
DOI:	10.1016/j.jcis.2024.09.226
Published in:	Journal of Colloid & Interface Science
Language:	English