Preparation of novel network nanostructured sulfur composite cathode with enhanced stable cycle performance

Yongguang Zhang; Yan Zhao; Zhumabay Bakenov; Aishuak Konarov; P. Chen

doi:10.1016/j.jpowsour.2014.07.096

Preparation of novel network nanostructured sulfur composite cathode with enhanced stable cycle performance

Yongguang Zhang
, Yan Zhao
, Zhumabay Bakenov
, Aishuak Konarov
, P. Chen

School of Engineering and Digital Sciences

Результат исследований › рецензирование

48 Цитирования (Scopus)

Аннотация

In situ polymerization of acrylonitrile with nano-sulfur particles has been developed as a synthetic route to prepare sulfur/polyacrylonitrile (S/ _pPAN) composite as a cathode material for lithium/sulfur battery. Transmission electronic microscopy revealed the formation of a highly developed network structure consisting of PAN and sulfur homogeneous mixing at nanosized level, providing the "buffering" space to accommodate the volume change of sulfur upon cycling and retaining the structural integrity preventing the material agglomeration and degradation. Benefiting from this unique structure, the S/_pPAN composite cathode demonstrated enhanced reversibility, resulting in a discharge capacity of 1177 mAh g^-1 at the second cycle and retained about 100% of this value over 100 cycles at 0.5C. Furthermore, the S/_pPAN composite cathode delivered a discharge capacity of 981 mAh g^-1 at the 100th cycle at 1C.

Язык оригинала	English
Страницы (с-по)	326-331
Число страниц	6
Журнал	Journal of Power Sources
Том	270
DOI	https://doi.org/10.1016/j.jpowsour.2014.07.096
Состояние	Published - дек. 15 2014

ASJC Scopus subject areas

Renewable Energy, Sustainability and the Environment
Energy Engineering and Power Technology
Physical and Theoretical Chemistry
Electrical and Electronic Engineering

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10.1016/j.jpowsour.2014.07.096

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title = "Preparation of novel network nanostructured sulfur composite cathode with enhanced stable cycle performance",

abstract = "In situ polymerization of acrylonitrile with nano-sulfur particles has been developed as a synthetic route to prepare sulfur/polyacrylonitrile (S/ pPAN) composite as a cathode material for lithium/sulfur battery. Transmission electronic microscopy revealed the formation of a highly developed network structure consisting of PAN and sulfur homogeneous mixing at nanosized level, providing the {"}buffering{"} space to accommodate the volume change of sulfur upon cycling and retaining the structural integrity preventing the material agglomeration and degradation. Benefiting from this unique structure, the S/pPAN composite cathode demonstrated enhanced reversibility, resulting in a discharge capacity of 1177 mAh g-1 at the second cycle and retained about 100\% of this value over 100 cycles at 0.5C. Furthermore, the S/pPAN composite cathode delivered a discharge capacity of 981 mAh g-1 at the 100th cycle at 1C.",

keywords = "Cathode, Lithium/sulfur battery, Network structure, Sulfur/polyacrylonitrile composite",

author = "Yongguang Zhang and Yan Zhao and Zhumabay Bakenov and Aishuak Konarov and P. Chen",

note = "Funding Information: This research was financially supported by Positec , Natural Sciences and Engineering Research Council of Canada (NSERC) , Canadian Foundation for Innovation (CFI) and the Canada Research Chairs (CRC) . YZ thanks the China Scholarship Council for Study Abroad Scholarship. ZB acknowledges a research grant from the Ministry of Education and Science of Kazakhstan \#1889 and a Subproject supported by the Technology Commercialization Project by the World Bank and the Government of Kazakhstan.",

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doi = "10.1016/j.jpowsour.2014.07.096",

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AU - Chen, P.

N1 - Funding Information: This research was financially supported by Positec , Natural Sciences and Engineering Research Council of Canada (NSERC) , Canadian Foundation for Innovation (CFI) and the Canada Research Chairs (CRC) . YZ thanks the China Scholarship Council for Study Abroad Scholarship. ZB acknowledges a research grant from the Ministry of Education and Science of Kazakhstan #1889 and a Subproject supported by the Technology Commercialization Project by the World Bank and the Government of Kazakhstan.

PY - 2014/12/15

Y1 - 2014/12/15

N2 - In situ polymerization of acrylonitrile with nano-sulfur particles has been developed as a synthetic route to prepare sulfur/polyacrylonitrile (S/ pPAN) composite as a cathode material for lithium/sulfur battery. Transmission electronic microscopy revealed the formation of a highly developed network structure consisting of PAN and sulfur homogeneous mixing at nanosized level, providing the "buffering" space to accommodate the volume change of sulfur upon cycling and retaining the structural integrity preventing the material agglomeration and degradation. Benefiting from this unique structure, the S/pPAN composite cathode demonstrated enhanced reversibility, resulting in a discharge capacity of 1177 mAh g-1 at the second cycle and retained about 100% of this value over 100 cycles at 0.5C. Furthermore, the S/pPAN composite cathode delivered a discharge capacity of 981 mAh g-1 at the 100th cycle at 1C.

AB - In situ polymerization of acrylonitrile with nano-sulfur particles has been developed as a synthetic route to prepare sulfur/polyacrylonitrile (S/ pPAN) composite as a cathode material for lithium/sulfur battery. Transmission electronic microscopy revealed the formation of a highly developed network structure consisting of PAN and sulfur homogeneous mixing at nanosized level, providing the "buffering" space to accommodate the volume change of sulfur upon cycling and retaining the structural integrity preventing the material agglomeration and degradation. Benefiting from this unique structure, the S/pPAN composite cathode demonstrated enhanced reversibility, resulting in a discharge capacity of 1177 mAh g-1 at the second cycle and retained about 100% of this value over 100 cycles at 0.5C. Furthermore, the S/pPAN composite cathode delivered a discharge capacity of 981 mAh g-1 at the 100th cycle at 1C.

KW - Cathode

KW - Lithium/sulfur battery

KW - Network structure

KW - Sulfur/polyacrylonitrile composite

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