Molybdenum carbide nanostructures for electrocatalytic polysulfide conversion in lithium-polysulfide batteries.

Author(s) Wu, Y.; Deng, J.; Zhou, Y.; Huang, Y.; Li, Y.
Journal Nanoscale Horiz
Date Published 2020 Mar 01
Abstract

Introduction of appropriate cathode electrocatalysts in lithium-sulfur or lithium-polysulfide batteries can accelerate the polysulfide interconversion and suppress the shuttle effect. However, improvements are often limited especially under high sulfur loading. Herein, we prepare molybdenum carbide nanostructures and investigate their potential as the cathode electrocatalyst for lithium-polysulfide batteries. The product is prepared by the self-polymerization of dopamine in the presence of MoO ions, followed by high-temperature carburization. It features ultrasmall α-MoC nanoparticles uniformly dispersed on a hierarchical carbonaceous support. Polysulfide adsorption experiments and electrochemical measurements show that this material has a strong surface affinity toward polysulfides, and can greatly enhance their conversion rate, in particular the LiS↔ LiS/LiS conversion. When assessed as the cathode electrocatalyst, it enables lithium-polysulfide batteries with large specific capacity (up to 1400 mA h g), impressive rate capability (800 mA h g at 3200 mA g) and excellent cycling stability even at high sulfur loading.

DOI 10.1039/c9nh00618d
ISSN 2055-6764
Citation Wu Y, Deng J, Zhou Y, Huang Y, Li Y. Molybdenum carbide nanostructures for electrocatalytic polysulfide conversion in lithium-polysulfide batteries. Nanoscale Horiz. 2020;5(3):501-506.

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