Defect‐engineered Sulfur Vacancy Modified NiCo<sub>2</sub>S<sub>4‐x</sub> Nanosheet Anchoring Polysulfide for Improved Lithium Sulfur Batteries (Small 36/2023)

Xin Dai; Xu Wang; Guangjun Lv; Zhen Wu; Yan Liu; Junjie Sun; Yongning Liu; Yuanzhen Chen

doi:10.1002/smll.202370290

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Defect‐engineered Sulfur Vacancy Modified NiCo₂S_4‐x Nanosheet Anchoring Polysulfide for Improved Lithium Sulfur Batteries (Small 36/2023)

Xin Dai Xu Wang Guangjun Lv Zhen Wu Yan Liu Junjie Sun Yongning Liu Yuanzhen Chen

Year: 2023 Journal: Small Vol: 19 (36) Publisher: Wiley

DOI: 10.1002/smll.202370290

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Abstract

Improved Lithium Sulfur Batteries NiCo2S4-x nanoplates with sulfur vacancy are grown on the flexible carbon fiber paper as the interlayer of the Li-S battery. The 2D nanoplate morphology of NiCo2S4-x increases the effective adsorption sites for lithium polysulfides (LiPSs), and the Lewis acidic sulfur vacancy could regulate the precipitation and conversion behaviors of LiPSs, resulting in improved conversion kinetics. More details can be found in article number 2302267 by Yuanzhen Chen and co-workers.

Keywords:

Polysulfide Nanosheet Sulfur Vacancy defect Materials science Lithium–sulfur battery Lithium (medication) Chemical engineering Adsorption Battery (electricity) Inorganic chemistry Nanotechnology Electrochemistry Chemistry Electrode Crystallography Organic chemistry Metallurgy Electrolyte Physical chemistry

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Advanced Battery Materials and Technologies

Physical Sciences → Engineering → Electrical and Electronic Engineering

Defect‐engineered Sulfur Vacancy Modified NiCo₂S_4‐x Nanosheet Anchoring Polysulfide for Improved Lithium Sulfur Batteries (Small 36/2023)

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Defect‐engineered Sulfur Vacancy Modified NiCo2S4‐x Nanosheet Anchoring Polysulfide for Improved Lithium Sulfur Batteries (Small 36/2023)

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