锂硫电池单原子催化剂研究进展与展望

IF 13.1 1区化学 Q1 Energy

Journal of Energy Chemistry Pub Date : 2025-03-17 DOI:10.1016/j.jechem.2024.12.074

Shengmin Chen , Guanglei Li , Zhenye Zhu , Rongshu Zhu , Jiaheng Zhang , Yapeng Yue , Gefeng Li , Liang Zhou , Zhenghong Yan

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引用次数: 0

摘要

锂硫电池以其高能量密度、低成本、环保等特点，成为下一代电化学储能系统的有力竞争者。然而，LSBs的商业化仍然存在硫利用率低、循环寿命短、倍率性能差等关键问题，需要解决。单原子催化剂以其接近100%的超高原子利用率和配位构型可调等突出特点，在锂硫电池研究领域受到广泛关注。本文简要介绍了锂硫电池单原子催化剂的制备和表征方法，并从阴极、隔膜和阳极三个方面综述了锂硫电池单原子催化剂的最新研究进展。最后，展望了锂硫电池单原子催化剂的关键技术问题和未来的研究方向，以期促进锂硫电池商业化的进一步发展。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Single-atom catalysts for lithium-sulfur batteries: Research progress and prospects

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Single-atom catalysts for lithium-sulfur batteries: Research progress and prospects

Lithium-sulfur batteries (LSBs) have become a favorable contender for next-generation electrochemical energy storage systems due to their outstanding features such as high energy density, low cost, and environmental friendliness. However, the commercialization of LSBs is still characterized by critical issues such as low sulfur utilization, short cycle life, and poor rate performance, which need to be resolved. Single-atom catalysts, with their outstanding features such as ultra-high atom utilization rate close to 100% and adjustable coordination configuration, have received extensive attention in the field of lithium-sulfur battery research. In this paper, the preparation and characterization of single-atom catalysts for Li-S batteries are briefly introduced, and the latest research progress of single-atom catalysts for Li-S batteries is reviewed from three aspects: cathode, separator and anode. Finally, the key technical problems and future research directions of single-atom catalysts for lithium-sulfur batteries are also prospected, with a view to promoting the further development of commercialized LSBs.

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来源期刊

Journal of Energy Chemistry CHEMISTRY, APPLIED-CHEMISTRY, PHYSICAL

CiteScore

19.10

自引率

8.40%

发文量

3631

审稿时长

15 days

期刊介绍： The Journal of Energy Chemistry, the official publication of Science Press and the Dalian Institute of Chemical Physics, Chinese Academy of Sciences, serves as a platform for reporting creative research and innovative applications in energy chemistry. It mainly reports on creative researches and innovative applications of chemical conversions of fossil energy, carbon dioxide, electrochemical energy and hydrogen energy, as well as the conversions of biomass and solar energy related with chemical issues to promote academic exchanges in the field of energy chemistry and to accelerate the exploration, research and development of energy science and technologies. This journal focuses on original research papers covering various topics within energy chemistry worldwide, including: Optimized utilization of fossil energy Hydrogen energy Conversion and storage of electrochemical energy Capture, storage, and chemical conversion of carbon dioxide Materials and nanotechnologies for energy conversion and storage Chemistry in biomass conversion Chemistry in the utilization of solar energy