A novel solvent-free thermal reaction of ferrocene and sulfur for one-step synthesis of iron sulfide and carbon nanocomposites and their electrochemical performance

Ling Fei; Yufeng Jiang; Yun Xu; Gen Chen; Yuling Li; Xun Xu; Shuguang Deng; Hongmei Luo

doi:10.1016/j.jpowsour.2014.04.110

A novel solvent-free thermal reaction of ferrocene and sulfur for one-step synthesis of iron sulfide and carbon nanocomposites and their electrochemical performance

Ling Fei, Yufeng Jiang, Yun Xu, Gen Chen, Yuling Li, Xun Xu, Shuguang Deng, Hongmei Luo

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

32 Scopus citations

Abstract

A novel solvent-free thermal reaction of ferrocene and sulfur is developed for preparing iron sulfide and carbon nanocomposites, where ferrocene acts as both iron and carbon source. The prepared composite has iron sulfide sandwiched in carbon matrix. Moreover, ferrocene and sulfur can turn to vapor phase at an elevated temperature, resulting in easy deposition of product on the surface of templates. Sodium chloride was selected as a template due to its nontoxic and water-soluble nature. The NaCl-templated composite shows "sphere on mattress" morphology and exhibits the highest capacity and the longest cyclability ever reported for iron pyrite anode. To obtain mesoporous nanocomposites, SBA-15 was also applied as templates. The mesoporous nanocomposite demonstrates excellent capacity retention capability, indicating the robust structural stability.

Original language	English (US)
Pages (from-to)	1-5
Number of pages	5
Journal	Journal of Power Sources
Volume	265
DOIs	https://doi.org/10.1016/j.jpowsour.2014.04.110
State	Published - Nov 1 2014
Externally published	Yes

Keywords

Carbon
Ferrocene
Iron sulfide
Lithium ion batteries
Solvent-free

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.2014.04.110

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title = "A novel solvent-free thermal reaction of ferrocene and sulfur for one-step synthesis of iron sulfide and carbon nanocomposites and their electrochemical performance",

abstract = "A novel solvent-free thermal reaction of ferrocene and sulfur is developed for preparing iron sulfide and carbon nanocomposites, where ferrocene acts as both iron and carbon source. The prepared composite has iron sulfide sandwiched in carbon matrix. Moreover, ferrocene and sulfur can turn to vapor phase at an elevated temperature, resulting in easy deposition of product on the surface of templates. Sodium chloride was selected as a template due to its nontoxic and water-soluble nature. The NaCl-templated composite shows {"}sphere on mattress{"} morphology and exhibits the highest capacity and the longest cyclability ever reported for iron pyrite anode. To obtain mesoporous nanocomposites, SBA-15 was also applied as templates. The mesoporous nanocomposite demonstrates excellent capacity retention capability, indicating the robust structural stability.",

keywords = "Carbon, Ferrocene, Iron sulfide, Lithium ion batteries, Solvent-free",

author = "Ling Fei and Yufeng Jiang and Yun Xu and Gen Chen and Yuling Li and Xun Xu and Shuguang Deng and Hongmei Luo",

note = "Funding Information: We acknowledge the funding support from NSF/CMMI NanoManufacturing Program under Grant No. 1131290 and the office of Vice President for Research at NMSU. X. X. acknowledges the GREG award and L. F. acknowledges the Preparing Future Faculty Graduate Assistantship Award.",

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doi = "10.1016/j.jpowsour.2014.04.110",

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T1 - A novel solvent-free thermal reaction of ferrocene and sulfur for one-step synthesis of iron sulfide and carbon nanocomposites and their electrochemical performance

AU - Fei, Ling

AU - Jiang, Yufeng

AU - Xu, Yun

AU - Chen, Gen

AU - Li, Yuling

AU - Xu, Xun

AU - Deng, Shuguang

AU - Luo, Hongmei

N1 - Funding Information: We acknowledge the funding support from NSF/CMMI NanoManufacturing Program under Grant No. 1131290 and the office of Vice President for Research at NMSU. X. X. acknowledges the GREG award and L. F. acknowledges the Preparing Future Faculty Graduate Assistantship Award.

PY - 2014/11/1

Y1 - 2014/11/1

N2 - A novel solvent-free thermal reaction of ferrocene and sulfur is developed for preparing iron sulfide and carbon nanocomposites, where ferrocene acts as both iron and carbon source. The prepared composite has iron sulfide sandwiched in carbon matrix. Moreover, ferrocene and sulfur can turn to vapor phase at an elevated temperature, resulting in easy deposition of product on the surface of templates. Sodium chloride was selected as a template due to its nontoxic and water-soluble nature. The NaCl-templated composite shows "sphere on mattress" morphology and exhibits the highest capacity and the longest cyclability ever reported for iron pyrite anode. To obtain mesoporous nanocomposites, SBA-15 was also applied as templates. The mesoporous nanocomposite demonstrates excellent capacity retention capability, indicating the robust structural stability.

AB - A novel solvent-free thermal reaction of ferrocene and sulfur is developed for preparing iron sulfide and carbon nanocomposites, where ferrocene acts as both iron and carbon source. The prepared composite has iron sulfide sandwiched in carbon matrix. Moreover, ferrocene and sulfur can turn to vapor phase at an elevated temperature, resulting in easy deposition of product on the surface of templates. Sodium chloride was selected as a template due to its nontoxic and water-soluble nature. The NaCl-templated composite shows "sphere on mattress" morphology and exhibits the highest capacity and the longest cyclability ever reported for iron pyrite anode. To obtain mesoporous nanocomposites, SBA-15 was also applied as templates. The mesoporous nanocomposite demonstrates excellent capacity retention capability, indicating the robust structural stability.

KW - Carbon

KW - Ferrocene

KW - Iron sulfide

KW - Lithium ion batteries

KW - Solvent-free

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ER -

A novel solvent-free thermal reaction of ferrocene and sulfur for one-step synthesis of iron sulfide and carbon nanocomposites and their electrochemical performance

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Keywords

ASJC Scopus subject areas

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