Mesoporous Carbon@Titanium Nitride Hollow Spheres as an Efficient SeS2 Host for Advanced Li–SeS2 Batteries

Zhen Li; Jintao Zhang; Bu Yuan Guan; Xiong Wen David Lou

doi:10.1002/anie.201709176

Mesoporous Carbon@Titanium Nitride Hollow Spheres as an Efficient SeS₂ Host for Advanced Li–SeS₂ Batteries

Zhen Li, Jintao Zhang, Bu Yuan Guan, Xiong Wen David Lou

Nanyang Technological University

Research output: Contribution to journal › Article › peer-review

128 Scopus citations

Abstract

The introduction of a certain proportion of selenium into sulfur-based cathodes is an effective strategy for enhancing the integrated battery performance. However, similar to sulfur, selenium sulfide cathodes suffer from poor cycling stability owing to the dissolution of reaction intermediate products. In this study, to exploit the advantages of SeS₂ to the full and avoid its shortcomings, we designed and synthesized a hollow mesoporous carbon@titanium nitride (HMC@TiN) host for loading 70 wt % of SeS₂ as a cathode material for Li–SeS₂ batteries. Benefiting from both physical and chemical entrapment by hollow mesoporous carbon and TiN, the HMC@TiN/SeS₂ cathode manifests high utilization of the active material and excellent cycling stability. Moreover, it exhibits promising areal capacity (up to 4 mAh cm⁻²) with stable cell performance in the high-mass-loading electrode.

Original language	English
Pages (from-to)	16003-16007
Number of pages	5
Journal	Angewandte Chemie - International Edition
Volume	56
Issue number	50
DOIs	https://doi.org/10.1002/anie.201709176
State	Published - 11 Dec 2017
Externally published	Yes

Keywords

hollow mesoporous carbon
mesoporous materials
rechargeable batteries
selenium sulfides
titanium nitride

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10.1002/anie.201709176

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title = "Mesoporous Carbon@Titanium Nitride Hollow Spheres as an Efficient SeS2 Host for Advanced Li–SeS2 Batteries",

abstract = "The introduction of a certain proportion of selenium into sulfur-based cathodes is an effective strategy for enhancing the integrated battery performance. However, similar to sulfur, selenium sulfide cathodes suffer from poor cycling stability owing to the dissolution of reaction intermediate products. In this study, to exploit the advantages of SeS2 to the full and avoid its shortcomings, we designed and synthesized a hollow mesoporous carbon@titanium nitride (HMC@TiN) host for loading 70 wt % of SeS2 as a cathode material for Li–SeS2 batteries. Benefiting from both physical and chemical entrapment by hollow mesoporous carbon and TiN, the HMC@TiN/SeS2 cathode manifests high utilization of the active material and excellent cycling stability. Moreover, it exhibits promising areal capacity (up to 4 mAh cm−2) with stable cell performance in the high-mass-loading electrode.",

keywords = "hollow mesoporous carbon, mesoporous materials, rechargeable batteries, selenium sulfides, titanium nitride",

author = "Zhen Li and Jintao Zhang and Guan, {Bu Yuan} and Lou, {Xiong Wen David}",

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AU - Li, Zhen

AU - Zhang, Jintao

AU - Guan, Bu Yuan

AU - Lou, Xiong Wen David

PY - 2017/12/11

Y1 - 2017/12/11

N2 - The introduction of a certain proportion of selenium into sulfur-based cathodes is an effective strategy for enhancing the integrated battery performance. However, similar to sulfur, selenium sulfide cathodes suffer from poor cycling stability owing to the dissolution of reaction intermediate products. In this study, to exploit the advantages of SeS2 to the full and avoid its shortcomings, we designed and synthesized a hollow mesoporous carbon@titanium nitride (HMC@TiN) host for loading 70 wt % of SeS2 as a cathode material for Li–SeS2 batteries. Benefiting from both physical and chemical entrapment by hollow mesoporous carbon and TiN, the HMC@TiN/SeS2 cathode manifests high utilization of the active material and excellent cycling stability. Moreover, it exhibits promising areal capacity (up to 4 mAh cm−2) with stable cell performance in the high-mass-loading electrode.

AB - The introduction of a certain proportion of selenium into sulfur-based cathodes is an effective strategy for enhancing the integrated battery performance. However, similar to sulfur, selenium sulfide cathodes suffer from poor cycling stability owing to the dissolution of reaction intermediate products. In this study, to exploit the advantages of SeS2 to the full and avoid its shortcomings, we designed and synthesized a hollow mesoporous carbon@titanium nitride (HMC@TiN) host for loading 70 wt % of SeS2 as a cathode material for Li–SeS2 batteries. Benefiting from both physical and chemical entrapment by hollow mesoporous carbon and TiN, the HMC@TiN/SeS2 cathode manifests high utilization of the active material and excellent cycling stability. Moreover, it exhibits promising areal capacity (up to 4 mAh cm−2) with stable cell performance in the high-mass-loading electrode.

KW - hollow mesoporous carbon

KW - mesoporous materials

KW - rechargeable batteries

KW - selenium sulfides

KW - titanium nitride

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U2 - 10.1002/anie.201709176

DO - 10.1002/anie.201709176

M3 - 文章

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ER -

Mesoporous Carbon@Titanium Nitride Hollow Spheres as an Efficient SeS₂ Host for Advanced Li–SeS₂ Batteries

Abstract

Keywords

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