4.6 Article

In situ-formed cobalt nanoparticles embedded nitrogen-doped hierarchical porous carbon as sulfur host for high-performance Li-S batteries

Journal

ELECTROCHIMICA ACTA
Volume 403, Issue -, Pages -

Publisher

PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.electacta.2021.139717

Keywords

Lithium-sulfur batteries; Nitrogen doping; Porous carbon; Cobalt nanoparticles; High sulfur loading

Funding

  1. Key Laboratory of Aqueous Environment Protection and Pollution Control of Yangtze River in Anhui of Anhui [ASZY016]
  2. Talent-Introduction Program of Anqing Normal University [211006]
  3. Chemistry and Chemical Engineering Guangdong Laboratory [2011016]

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This study presents a simple strategy to design advanced S hosts for practical applications of Li-S batteries. The S cathode based on cobalt nanoparticles embedded in nitrogen-doped hierarchical porous carbon demonstrates high specific capacity, low-capacity fading rate, and superior rate performance. Moreover, the S/MgCo-HC electrode exhibits reversible area capacities under high S loading and low electrolyte conditions. Stable electrochemical properties are also achieved in the assembled Li-S soft-packaged battery under folding conditions.
Low redox kinetics and shuttle effect of polysulfides (PSs) is a grand challenge for practical applications of lithium-sulfur (Li-S) batteries. Herein, cobalt (Co) nanoparticles embedded inside nitrogen (N)-doped hierarchical porous carbon (MgCo-HC) are prepared via one-pot approach. As a result, MgCo-HC unique structure with the large surface area and Co, N-doping is proposed for the strong physical/chemical ad-sorption of PSs, high conductivity, fast redox reaction kinetics and the high S utilization. The resultant S cathode delivers a high specific capacity of 1086.4 mA h/g at 0.1 C, low-capacity fading rate of 0.041% per cycle over 880 cycles at 2 C, and superior rate performance up to 5 C. More intriguingly, the S/MgCo-HC electrode delivers reversible area capacities of 5.1 and 5.5 mA h/cm(2) at 0.1 C under high S loading and learn electrolyte condition, respectively. Furthermore, the assembled Li-S soft-packaged battery is also readily assembled, which highlights stable electrochemical properties under folding conditions. This work provides a simple strategy to design advanced S hosts for the practical application of Li-S batteries with excellent electrochemical performance. (c) 2021 Elsevier Ltd. All rights reserved.

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