A flexible metallic TiC nanofiber/vertical graphene 1D/2D heterostructured as active electrocatalyst for advanced Li–S batteries

A flexible metallic TiC nanofiber/vertical graphene 1D/2D heterostructured as active electrocatalyst for advanced Li–S batteries

Abstract The realistic application of lithium–sulfur (Li–S) batteries has been severely hindered by the sluggish conversion kinetics of polysulfides (LiPS) and inhomogeneous deposition of Li2S at high sulfur loading and low electrolyte/sulfur ratio (E/S). Herein, a flexible Li–S battery architecture...

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Main Authors: Yongshang Zhang, Peng Zhang, Shijie Zhang, Zheng Wang, Neng Li, S. Ravi P. Silva, Guosheng Shao
Format: Article
Language:English
Published: Wiley 2021-07-01
Series:InfoMat
Subjects:
electrocatalysis
electrospinning
interface engineering
nanofiber
vertical graphene
Online Access:https://doi.org/10.1002/inf2.12214
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spelling doaj-a4e57e7796754ab7b90928867e84c9d32021-07-01T23:16:39ZengWileyInfoMat2567-31652021-07-013779080310.1002/inf2.12214A flexible metallic TiC nanofiber/vertical graphene 1D/2D heterostructured as active electrocatalyst for advanced Li–S batteriesYongshang Zhang0Peng Zhang1Shijie Zhang2Zheng Wang3Neng Li4S. Ravi P. Silva5Guosheng Shao6State Center for International Cooperation on Designer Low‐Carbon & Environmental Materials (CDLCEM), School of Materials Science and Engineering Zhengzhou University Zhengzhou ChinaState Center for International Cooperation on Designer Low‐Carbon & Environmental Materials (CDLCEM), School of Materials Science and Engineering Zhengzhou University Zhengzhou ChinaState Center for International Cooperation on Designer Low‐Carbon & Environmental Materials (CDLCEM), School of Materials Science and Engineering Zhengzhou University Zhengzhou ChinaState Key Laboratory of Silicate Materials for Architecture Wuhan University of Technology Wuhan ChinaState Key Laboratory of Silicate Materials for Architecture Wuhan University of Technology Wuhan ChinaState Center for International Cooperation on Designer Low‐Carbon & Environmental Materials (CDLCEM), School of Materials Science and Engineering Zhengzhou University Zhengzhou ChinaState Center for International Cooperation on Designer Low‐Carbon & Environmental Materials (CDLCEM), School of Materials Science and Engineering Zhengzhou University Zhengzhou ChinaAbstract The realistic application of lithium–sulfur (Li–S) batteries has been severely hindered by the sluggish conversion kinetics of polysulfides (LiPS) and inhomogeneous deposition of Li2S at high sulfur loading and low electrolyte/sulfur ratio (E/S). Herein, a flexible Li–S battery architecture based on electrocatalyzed cathodes made of interfacial engineered TiC nanofibers and in situ grown vertical graphene are developed. Integrated 1D/2D heterostructured electrocatalysts are realized to enable highly improved Li+ and electron transportation together with significantly enhanced affinity to LiPS, which effectively accelerate the conversion kinetics between sulfur species, and thus induce homogeneous deposition of Li2S in the catalyzed cathodes. Consequently, highly active electro‐electrocatalysts‐based cells exhibit remarkable rate capability at 2C with a high specific capacity of 971 mAh g−1. Even at ultra‐high sulfur loading and low E/S ratio, the battery still delivers a high areal capacity of 9.1 mAh cm−2, with a flexible pouch cell being demonstrated to power a LED array at different bending angles with a high capacity over 100 cycles. This work puts forward a novel pathway for the rational design of effective nanofiber electrocatalysts for cathodes of high‐performance Li–S batteries.https://doi.org/10.1002/inf2.12214electrocatalysiselectrospinninginterface engineeringnanofibervertical graphene
collection DOAJ
language English
format Article
sources DOAJ
author Yongshang Zhang
Peng Zhang
Shijie Zhang
Zheng Wang
Neng Li
S. Ravi P. Silva
Guosheng Shao
spellingShingle Yongshang Zhang
Peng Zhang
Shijie Zhang
Zheng Wang
Neng Li
S. Ravi P. Silva
Guosheng Shao
A flexible metallic TiC nanofiber/vertical graphene 1D/2D heterostructured as active electrocatalyst for advanced Li–S batteries
InfoMat
electrocatalysis
electrospinning
interface engineering
nanofiber
vertical graphene
author_facet Yongshang Zhang
Peng Zhang
Shijie Zhang
Zheng Wang
Neng Li
S. Ravi P. Silva
Guosheng Shao
author_sort Yongshang Zhang
title A flexible metallic TiC nanofiber/vertical graphene 1D/2D heterostructured as active electrocatalyst for advanced Li–S batteries
title_short A flexible metallic TiC nanofiber/vertical graphene 1D/2D heterostructured as active electrocatalyst for advanced Li–S batteries
title_full A flexible metallic TiC nanofiber/vertical graphene 1D/2D heterostructured as active electrocatalyst for advanced Li–S batteries
title_fullStr A flexible metallic TiC nanofiber/vertical graphene 1D/2D heterostructured as active electrocatalyst for advanced Li–S batteries
title_full_unstemmed A flexible metallic TiC nanofiber/vertical graphene 1D/2D heterostructured as active electrocatalyst for advanced Li–S batteries
title_sort flexible metallic tic nanofiber/vertical graphene 1d/2d heterostructured as active electrocatalyst for advanced li–s batteries
publisher Wiley
series InfoMat
issn 2567-3165
publishDate 2021-07-01
description Abstract The realistic application of lithium–sulfur (Li–S) batteries has been severely hindered by the sluggish conversion kinetics of polysulfides (LiPS) and inhomogeneous deposition of Li2S at high sulfur loading and low electrolyte/sulfur ratio (E/S). Herein, a flexible Li–S battery architecture based on electrocatalyzed cathodes made of interfacial engineered TiC nanofibers and in situ grown vertical graphene are developed. Integrated 1D/2D heterostructured electrocatalysts are realized to enable highly improved Li+ and electron transportation together with significantly enhanced affinity to LiPS, which effectively accelerate the conversion kinetics between sulfur species, and thus induce homogeneous deposition of Li2S in the catalyzed cathodes. Consequently, highly active electro‐electrocatalysts‐based cells exhibit remarkable rate capability at 2C with a high specific capacity of 971 mAh g−1. Even at ultra‐high sulfur loading and low E/S ratio, the battery still delivers a high areal capacity of 9.1 mAh cm−2, with a flexible pouch cell being demonstrated to power a LED array at different bending angles with a high capacity over 100 cycles. This work puts forward a novel pathway for the rational design of effective nanofiber electrocatalysts for cathodes of high‐performance Li–S batteries.
topic electrocatalysis
electrospinning
interface engineering
nanofiber
vertical graphene
url https://doi.org/10.1002/inf2.12214
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