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Literature DB >> 22837055

A new approach to improve cycle performance of rechargeable lithium-sulfur batteries by inserting a free-standing MWCNT interlayer.

Abstract

A conductive multiwalled carbon nanotube (MWCNT) interlayer acting as a pseudo-upper current collector not only reduces the charge transfer resistance of sulfur cathodes significantly, but also localizes and retains the dissolved active material during cycling.

Entities: Chemical

Year: 2012 PMID： 22837055 DOI： 10.1039/c2cc33945e

Source DB: PubMed Journal: Chem Commun (Camb) ISSN： 1359-7345 Impact factor: 6.222

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Cited

15 in total

1. Amorphous MoS₃ as the sulfur-equivalent cathode material for room-temperature Li-S and Na-S batteries.

Authors: Hualin Ye; Lu Ma; Yu Zhou; Lu Wang; Na Han; Feipeng Zhao; Jun Deng; Tianpin Wu; Yanguang Li; Jun Lu
Journal: Proc Natl Acad Sci U S A Date: 2017-11-27 Impact factor: 11.205

2. Single step transformation of sulphur to Li2S2/Li2S in Li-S batteries.

Authors: M Helen; M Anji Reddy; Thomas Diemant; Ute Golla-Schindler; R Jürgen Behm; Ute Kaiser; Maximilian Fichtner
Journal: Sci Rep Date: 2015-07-15 Impact factor: 4.379

3. Janus Separator of Polypropylene-Supported Cellular Graphene Framework for Sulfur Cathodes with High Utilization in Lithium-Sulfur Batteries.

Authors: Hong-Jie Peng; Dai-Wei Wang; Jia-Qi Huang; Xin-Bing Cheng; Zhe Yuan; Fei Wei; Qiang Zhang
Journal: Adv Sci (Weinh) Date: 2015-10-01 Impact factor: 16.806

4. Capacity Fade Analysis of Sulfur Cathodes in Lithium-Sulfur Batteries.

Authors: Jianhua Yan; Xingbo Liu; Bingyun Li
Journal: Adv Sci (Weinh) Date: 2016-07-21 Impact factor: 16.806

5. Chemical Adsorption and Physical Confinement of Polysulfides with the Janus-faced Interlayer for High-performance Lithium-Sulfur Batteries.

Authors: Poramane Chiochan; Siriroong Kaewruang; Nutthaphon Phattharasupakun; Juthaporn Wutthiprom; Thana Maihom; Jumras Limtrakul; Sanjog S Nagarkar; Satoshi Horike; Montree Sawangphruk
Journal: Sci Rep Date: 2017-12-18 Impact factor: 4.379

Review 6. Fiber-Type Solar Cells, Nanogenerators, Batteries, and Supercapacitors for Wearable Applications.

Authors: Sreekanth J Varma; Kowsik Sambath Kumar; Sudipta Seal; Swaminathan Rajaraman; Jayan Thomas
Journal: Adv Sci (Weinh) Date: 2018-06-17 Impact factor: 16.806

Review 7. Application Progress of Polyaniline, Polypyrrole and Polythiophene in Lithium-Sulfur Batteries.

Authors: Xiaodong Hong; Yue Liu; Yang Li; Xu Wang; Jiawei Fu; Xuelei Wang
Journal: Polymers (Basel) Date: 2020-02-05 Impact factor: 4.329

8. A Free-Standing Sulfur/Nitrogen-Doped Carbon Nanotube Electrode for High-Performance Lithium/Sulfur Batteries.

Authors: Yan Zhao; Fuxing Yin; Yongguang Zhang; Chengwei Zhang; Almagul Mentbayeva; Nurzhan Umirov; Hongxian Xie; Zhumabay Bakenov
Journal: Nanoscale Res Lett Date: 2015-11-19 Impact factor: 4.703

9. Aspergillus flavus Conidia-derived Carbon/Sulfur Composite as a Cathode Material for High Performance Lithium-Sulfur Battery.

Authors: Maowen Xu; Min Jia; Cuiping Mao; Sangui Liu; Shujuan Bao; Jian Jiang; Yang Liu; Zhisong Lu
Journal: Sci Rep Date: 2016-01-06 Impact factor: 4.379

Review 10. Progress and Prospect of Organic Electrocatalysts in Lithium-Sulfur Batteries.

Authors: Yangyang Dong; Tingting Li; Dong Cai; Shuo Yang; Xuemei Zhou; Huagui Nie; Zhi Yang
Journal: Front Chem Date: 2021-07-15 Impact factor: 5.221