Improved electrochemical behavior of Li–S battery with functional WS2@PB–PPy–modified separator

Improved electrochemical behavior of Li–S battery with functional WS2@PB–PPy–modified separator

The Li–S battery is extremely attractive in electric vehicles and portable electronics owing to the ultrahigh theoretical energy density and reduced cost. Nevertheless, sulfur dissolves into polysulfide in the electrolyte and shuttles between the electrodes results in rapid capacity decay, thereby l...

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Main Authors: Guoda Wang, Qing Jiao, Zengcheng Zhang, Yue Zhao, Changgui Lin, Xianghua Zhang, Hongli Ma, Shixun Dai, Tiefeng Xu
Format: Article
Language:English
Published: Elsevier 2021-11-01
Series:Chemical Engineering Journal Advances
Subjects:
Electrolyte separator
Prussian blue
WS2@PB–PPy layer
Ionic selectivity
Electrochemical properties
Li–S battery
Online Access:http://www.sciencedirect.com/science/article/pii/S2666821121000612
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spelling doaj-0eca5312f9c549bba3b5c33e80f4a0782021-07-19T04:10:40ZengElsevierChemical Engineering Journal Advances2666-82112021-11-018100145Improved electrochemical behavior of Li–S battery with functional WS2@PB–PPy–modified separatorGuoda Wang0Qing Jiao1Zengcheng Zhang2Yue Zhao3Changgui Lin4Xianghua Zhang5Hongli Ma6Shixun Dai7Tiefeng Xu8Laboratory of Infrared Material and Devices, Advanced Technology Research Institute, Ningbo University, Ningbo 315211, ChinaLaboratory of Infrared Material and Devices, Advanced Technology Research Institute, Ningbo University, Ningbo 315211, China; Corresponding author.Laboratory of Infrared Material and Devices, Advanced Technology Research Institute, Ningbo University, Ningbo 315211, ChinaNingbo Institute of Materials Technology and Engineering, Chinese Academy of Sciences, Ningbo, Zhejiang 315201, ChinaLaboratory of Infrared Material and Devices, Advanced Technology Research Institute, Ningbo University, Ningbo 315211, ChinaLaboratory of Glasses and Ceramics, Institute of Chemical Science, University of Rennes 1, UMR CNRS 6226, Rennes, FranceLaboratory of Glasses and Ceramics, Institute of Chemical Science, University of Rennes 1, UMR CNRS 6226, Rennes, FranceLaboratory of Infrared Material and Devices, Advanced Technology Research Institute, Ningbo University, Ningbo 315211, ChinaNingbo Institute of Oceanography, Ningbo 315832, ChinaThe Li–S battery is extremely attractive in electric vehicles and portable electronics owing to the ultrahigh theoretical energy density and reduced cost. Nevertheless, sulfur dissolves into polysulfide in the electrolyte and shuttles between the electrodes results in rapid capacity decay, thereby limits practical applications in energy storage. Herein, a simple coating method was proposed to introduce a WS2@PB11 Prussian blue (PB)–PPy22 Polypyrrole (PPy)–modified coating on the surface of the conventional polymer separator. The unparalleled composition of the WS2@PB–PPy layer can adequately inhibit the back and forth of polysulfides and the formation of inactive sulfur–related substances. Therefore, lithium ions can be transferred homogeneously inside the battery. Compared with those of batteries with pristine PP separators, the specific capacity and cycle stability are remarkably ameliorated for lithium-sulfur battery. This modified separator battery exhibits a raised specific capacity (1050 mAh g−1) and promoted capacity retention (650 mAh g−1 after 300 cycles) with coulombic efficiency more than 99.5% and capacity retention rate reaching 62%. It demonstrates that the three-layer porous as ions sieve structure indeed prevents the transfer of polysulfides through electrolyte to the anode and allows lithium-ion to pass through the separator. The rational design for the modified separator provides a trendy method to realize high-performance Li–S batteries.http://www.sciencedirect.com/science/article/pii/S2666821121000612Electrolyte separatorPrussian blueWS2@PB–PPy layerIonic selectivityElectrochemical propertiesLi–S battery
collection DOAJ
language English
format Article
sources DOAJ
author Guoda Wang
Qing Jiao
Zengcheng Zhang
Yue Zhao
Changgui Lin
Xianghua Zhang
Hongli Ma
Shixun Dai
Tiefeng Xu
spellingShingle Guoda Wang
Qing Jiao
Zengcheng Zhang
Yue Zhao
Changgui Lin
Xianghua Zhang
Hongli Ma
Shixun Dai
Tiefeng Xu
Improved electrochemical behavior of Li–S battery with functional WS2@PB–PPy–modified separator
Chemical Engineering Journal Advances
Electrolyte separator
Prussian blue
WS2@PB–PPy layer
Ionic selectivity
Electrochemical properties
Li–S battery
author_facet Guoda Wang
Qing Jiao
Zengcheng Zhang
Yue Zhao
Changgui Lin
Xianghua Zhang
Hongli Ma
Shixun Dai
Tiefeng Xu
author_sort Guoda Wang
title Improved electrochemical behavior of Li–S battery with functional WS2@PB–PPy–modified separator
title_short Improved electrochemical behavior of Li–S battery with functional WS2@PB–PPy–modified separator
title_full Improved electrochemical behavior of Li–S battery with functional WS2@PB–PPy–modified separator
title_fullStr Improved electrochemical behavior of Li–S battery with functional WS2@PB–PPy–modified separator
title_full_unstemmed Improved electrochemical behavior of Li–S battery with functional WS2@PB–PPy–modified separator
title_sort improved electrochemical behavior of li–s battery with functional ws2@pb–ppy–modified separator
publisher Elsevier
series Chemical Engineering Journal Advances
issn 2666-8211
publishDate 2021-11-01
description The Li–S battery is extremely attractive in electric vehicles and portable electronics owing to the ultrahigh theoretical energy density and reduced cost. Nevertheless, sulfur dissolves into polysulfide in the electrolyte and shuttles between the electrodes results in rapid capacity decay, thereby limits practical applications in energy storage. Herein, a simple coating method was proposed to introduce a WS2@PB11 Prussian blue (PB)–PPy22 Polypyrrole (PPy)–modified coating on the surface of the conventional polymer separator. The unparalleled composition of the WS2@PB–PPy layer can adequately inhibit the back and forth of polysulfides and the formation of inactive sulfur–related substances. Therefore, lithium ions can be transferred homogeneously inside the battery. Compared with those of batteries with pristine PP separators, the specific capacity and cycle stability are remarkably ameliorated for lithium-sulfur battery. This modified separator battery exhibits a raised specific capacity (1050 mAh g−1) and promoted capacity retention (650 mAh g−1 after 300 cycles) with coulombic efficiency more than 99.5% and capacity retention rate reaching 62%. It demonstrates that the three-layer porous as ions sieve structure indeed prevents the transfer of polysulfides through electrolyte to the anode and allows lithium-ion to pass through the separator. The rational design for the modified separator provides a trendy method to realize high-performance Li–S batteries.
topic Electrolyte separator
Prussian blue
WS2@PB–PPy layer
Ionic selectivity
Electrochemical properties
Li–S battery
url http://www.sciencedirect.com/science/article/pii/S2666821121000612
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