Nitrogen-doped carbon-coated hollow SnS2/NiS microflowers for high-performance lithium storage

Nitrogen-doped carbon-coated hollow SnS 2 /NiS (SnS 2 /NiS@N-C) microflowers were obtained using NiSn(OH) 6 nanospheres as the template via a solvent-thermal method followed by the polydopamine coating and carbonization process. When served as an anode material for lithium-ion batteries, such hollow...

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Published inFrontiers of materials science Vol. 17; no. 3
Main Authors Wang, Junhai, Zheng, Jiandong, Gao, Liping, Dai, Qingshan, Joo, Sang Woo, Huang, Jiarui
Format Journal Article
LanguageEnglish
Published Beijing Higher Education Press 01.09.2023
Springer Nature B.V
Subjects
Anodes
Bimetals
Carbon
Chemistry and Materials Science
Electrode materials
Energy storage
Lithium-ion batteries
Materials Science
Nanospheres
Nitrogen
Reaction kinetics
Rechargeable batteries
Research Article
Tin disulfide
nitrogen-doped carbon
SnS
NiS
anode
microflower
hollow structure
lithium-ion battery
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Abstract Nitrogen-doped carbon-coated hollow SnS 2 /NiS (SnS 2 /NiS@N-C) microflowers were obtained using NiSn(OH) 6 nanospheres as the template via a solvent-thermal method followed by the polydopamine coating and carbonization process. When served as an anode material for lithium-ion batteries, such hollow SnS 2 /NiS@N-C microflowers exhibited a capacity of 403.5 mAh·g −1 at 2.0 A·g −1 over 200 cycles and good rate performance. The electrochemical reaction kinetics of this anode was analyzed, and the morphologies and structures of anode materials after the cycling test were characterized. The high stability and good rate performance were mainly due to bimetallic synergy, hollow micro/nanostructure, and nitrogen-doped carbon layers. The revealed excellent electrochemical energy storage properties of hollow SnS 2 /NiS@N-C microflowers in this study highlight their potential as the anode material.
AbstractList Nitrogen-doped carbon-coated hollow SnS 2 /NiS (SnS 2 /NiS@N-C) microflowers were obtained using NiSn(OH) 6 nanospheres as the template via a solvent-thermal method followed by the polydopamine coating and carbonization process. When served as an anode material for lithium-ion batteries, such hollow SnS 2 /NiS@N-C microflowers exhibited a capacity of 403.5 mAh·g −1 at 2.0 A·g −1 over 200 cycles and good rate performance. The electrochemical reaction kinetics of this anode was analyzed, and the morphologies and structures of anode materials after the cycling test were characterized. The high stability and good rate performance were mainly due to bimetallic synergy, hollow micro/nanostructure, and nitrogen-doped carbon layers. The revealed excellent electrochemical energy storage properties of hollow SnS 2 /NiS@N-C microflowers in this study highlight their potential as the anode material.
Nitrogen-doped carbon-coated hollow SnS2/NiS (SnS2/NiS@N-C) microflowers were obtained using NiSn(OH)6 nanospheres as the template via a solvent-thermal method followed by the polydopamine coating and carbonization process. When served as an anode material for lithium-ion batteries, such hollow SnS2/NiS@N-C microflowers exhibited a capacity of 403.5 mAh·g−1 at 2.0 A·g−1 over 200 cycles and good rate performance. The electrochemical reaction kinetics of this anode was analyzed, and the morphologies and structures of anode materials after the cycling test were characterized. The high stability and good rate performance were mainly due to bimetallic synergy, hollow micro/nanostructure, and nitrogen-doped carbon layers. The revealed excellent electrochemical energy storage properties of hollow SnS2/NiS@N-C microflowers in this study highlight their potential as the anode material.
ArticleNumber 230654
Author Wang, Junhai
Dai, Qingshan
Zheng, Jiandong
Huang, Jiarui
Gao, Liping
Joo, Sang Woo
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  givenname: Sang Woo
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  email: jrhuang@mail.ahnu.edu.cn
  organization: Key Laboratory of Functional Molecular Solids of the Ministry of Education, College of Chemistry and Materials Science, Anhui Normal University
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SnS
NiS
anode
microflower
hollow structure
lithium-ion battery
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Snippet Nitrogen-doped carbon-coated hollow SnS 2 /NiS (SnS 2 /NiS@N-C) microflowers were obtained using NiSn(OH) 6 nanospheres as the template via a solvent-thermal...
Nitrogen-doped carbon-coated hollow SnS2/NiS (SnS2/NiS@N-C) microflowers were obtained using NiSn(OH)6 nanospheres as the template via a solvent-thermal method...
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SubjectTerms Anodes
Bimetals
Carbon
Chemistry and Materials Science
Electrode materials
Energy storage
Lithium-ion batteries
Materials Science
Nanospheres
Nitrogen
Reaction kinetics
Rechargeable batteries
Research Article
Tin disulfide
Title Nitrogen-doped carbon-coated hollow SnS2/NiS microflowers for high-performance lithium storage
URI https://link.springer.com/article/10.1007/s11706-023-0654-8
https://www.proquest.com/docview/2840336236
Volume 17
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