Double catalysis of Co₉Se₈-Ni₃Se₄ heterogeneous dual-chamber core-shell Achieves high conversion of polysulfides.

IF 9.4 1区化学 Q1 CHEMISTRY, PHYSICAL Journal of Colloid and Interface Science Pub Date : 2025-03-15 Epub Date: 2024-12-06 DOI:10.1016/j.jcis.2024.12.010

Chunman Yang, Fei Wang, Yongqi Wang, Wenchang Han, Wengxiang Ai, Qian Wang, Yuhan He, Ziyi Zhu, Yiyong Zhang, Xue Li

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Abstract

Achieving efficient catalytic conversion of lithium polysulfides is a key way to improve kinetics in lithium-sulfur (Li-S) batteries. However, due to the limited nature of the catalyst interface, it is difficult to achieve a high conversion rate of LiPSs in one step. A novel heterogeneous dual-chamber core-shell nanocatalyst (Co₉Se₈-Ni₃Se₄@PC) is described here, which efficiently accommodates sulfur and provides a heterogeneous dual catalytic interface like a two-stage "filter". The dual guarantee provides a rapid and high-ratio catalytic conversion of LiPSs. Through in-situ Raman experiments and theoretical analysis, it has been proved that the dual-chamber multi-stage catalytic structure can promote the efficient conversion of LiPSs and good sulfur species reversibility. The Co₉Se₈-Ni₃Se₄@PC cathode provides an initial specific capacity of 923mAh/g at 2C, and the average capacity decay rate after 800 cycles is only 0.048 %. This work provides new ideas for designing new nanocatalysts in lithium-sulfur systems and insights into achieving multi-stage catalysis in structural design.

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Co9Se8-Ni3Se4 异构双室核壳双重催化实现多硫化物的高转化率

实现多硫化物锂的高效催化转化是改善锂硫电池动力学的关键途径。然而，由于催化剂界面的有限性，很难一步实现高转化率的LiPSs。本文描述了一种新型的非均相双室核壳纳米催化剂（Co9Se8-Ni3Se4@PC），它能有效地容纳硫，并提供一个非均相双催化界面，就像一个两级“过滤器”。双重保证提供了快速和高比率的催化转化的LiPSs。通过原位拉曼实验和理论分析，证明了双室多级催化结构能促进LiPSs的高效转化和良好的硫种可逆性。Co9Se8-Ni3Se4@PC阴极在2C时的初始比容量为923mAh/g， 800次循环后的平均容量衰减率仅为0.048%。这项工作为设计锂硫体系的新型纳米催化剂提供了新的思路，并为在结构设计中实现多级催化提供了新的见解。

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来源期刊

Journal of Colloid and Interface Science 化学-物理化学

CiteScore

16.10

自引率

7.10%

发文量

2568

审稿时长

2 months

期刊介绍： The Journal of Colloid and Interface Science publishes original research findings on the fundamental principles of colloid and interface science, as well as innovative applications in various fields. The criteria for publication include impact, quality, novelty, and originality. Emphasis: The journal emphasizes fundamental scientific innovation within the following categories: A.Colloidal Materials and Nanomaterials B.Soft Colloidal and Self-Assembly Systems C.Adsorption, Catalysis, and Electrochemistry D.Interfacial Processes, Capillarity, and Wetting E.Biomaterials and Nanomedicine F.Energy Conversion and Storage, and Environmental Technologies