1. Sulfur–Carbon Electrode with PEO‐LiFSI‐PVDF Composite Coating for High‐Rate and Long‐Life Lithium–Sulfur Batteries.
- Author
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Li, Ling, Nam, Jong Seok, Kim, Min Soo, Wang, Yifan, Jiang, Shaohua, Hou, Haoqing, and Kim, Il‐Doo
- Subjects
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FLUOROPOLYMERS , *LITHIUM sulfur batteries , *COMPOSITE coating , *POLYETHYLENE oxide , *POLYELECTROLYTES , *POLYVINYLIDENE fluoride , *DENSITY functional theory - Abstract
To address the problem of the serious capacity fading in lithium–sulfur batteries, a multi‐functional PEO(polyethylene oxide)/LiFSI (lithium bis(fluorosulfonyl)imide)/PVDF (polyvinylidene fluoride) (PLP) gel polymer electrolyte is exploited by coating PLP on a carbon nanotubes (CNTs) based sulfur cathode (PLP‐S/CNTs) with a controlled thermal annealing process. The annealing process leads to the conformal infusion of PLP through the matrix of S/CNTs with retaining the amorphous phase of the PLP, which enhance the rate performance compared to the bare S/CNTs. The PLP coating drives the transformation of more elemental sulfur to Li2S2/Li2S without forming intermediary product by restraining soluble‐polysulfides formation. Furthermore, the PLP coating successfully inhibits the dissolution of Li2Sx (x > 4) in PEO and prevents the loss of active material in the cathode, which is confirmed by density functional theory calculations. Comprehensively, the PLP coating applied to the surface of the S/CNTs cathode exhibit significantly suppressed shuttle effect and greatly improve long‐term cycle stability of the lithium–sulfur battery. The synthesized PLP‐coated S/CNTs composite cathode demonstrates a high specific capacity of 573.6 mAh g−1 at a current density of 0.5 C after 1 000 cycles, even achieving 318.1 mAh g−1 at an extremely high C‐rate (6 C). which is unprecedented performance among the reported studies on coating technology. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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