4.6 Article

Li intercalation in an MoSe2 electrocatalyst: In situ observation and modulation of its precisely controllable phase engineering for a high-performance flexible Li-S battery

Journal

CARBON ENERGY
Volume 5, Issue 2, Pages -

Publisher

WILEY
DOI: 10.1002/cey2.255

Keywords

electrocatalysts; electrospinning; Li intercalation; lithium-sulfur batteries; phase engineering

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This study achieved a precisely controllable phase evolution from 2H-MoSe2 to 1T-MoSe2 in MoSe2 through in situ Li ions intercalation. The definite functional relationship between cut-off voltage and phase structure was identified for phase engineering. The prepared sulfur host (CNFs/1T-MoSe2) exhibited high charge density, strong polysulfides adsorption, and catalytic kinetics. Li-S cells based on this sulfur host showed good cyclic stability and high specific capacity.
Sophisticated efficient electrocatalysts are essential to rectifying the shuttle effect and realizing the high performance of flexible lithium-sulfur batteries (LSBs). Phase transformation of MoSe2 from the 2H phase to the 1T phase has been proven to be a significant method to improve the catalytic activity. However, precisely controllable phase engineering of MoSe2 has rarely been reported. Herein, by in situ Li ions intercalation in MoSe2, a precisely controllable phase evolution from 2H-MoSe2 to 1T-MoSe2 was realized. More importantly, the definite functional relationship between cut-off voltage and phase structure was first identified for phase engineering through in situ observation and modulation methods. The sulfur host (CNFs/1T-MoSe2) presents high charge density, strong polysulfides adsorption, and catalytic kinetics. Moreover, Li-S cells based on it display capacity retention of 875.3 mAh g(-1) after 500 cycles at 1 C and an areal capacity of 8.71 mAh cm(-2) even at a high sulfur loading of 8.47 mg cm(-2). Furthermore, the flexible pouch cell exhibiting decent performance will endow a promising potential in the wearable energy storage field. This study proposes an effective strategy to precisely control the phase structure of MoSe2, which may provide the reference to fabricate the highly efficient electrocatalysts for LSBs and other energy systems.

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