Influence of the diameter distribution on the rate capability of silicon nanowires for lithium-ion batteries

Aurélien Gohier; Barbara Laïk; Jean Pierre Pereira-Ramos; Costel Sorin Cojocaru; Pierre Tran-Van

doi:10.1016/j.jpowsour.2011.12.023

Influence of the diameter distribution on the rate capability of silicon nanowires for lithium-ion batteries

Aurélien Gohier
, Barbara Laïk
, Jean Pierre Pereira-Ramos
, Costel Sorin Cojocaru
, Pierre Tran-Van

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

Abstract

For the first time, the effect of the nanowires diameter in terms of size and distribution on electrochemical properties of SiNWs grown by VLS was investigated. The diameter size was tuned by using three different gold catalyst film thicknesses. The crucial influence of this parameter is evidenced through comparison of the charge-discharge behavior and a study of the rate capability for the three samples. The rechargeable capacity as well as the rate capability is shown to be the best when the smallest diameters (<65 nm) are used compared to larger one (<210 nm and <490 nm). High capacity values of 3500 mAh g ^-1 are obtained for the smallest diameters at C/5 rate but still 2500, 1500 and 500 mAh g ^-1 are recovered at C, 2.5 C and 5 C. An excellent cycle life over 50 cycles is achieved at 1.3 C with a capacity of 2500 mAh g ^-1. This shows that by tailoring the diameter size and distribution, SiNWs can provide high power density anodes in lithium ion batteries.

Original language	English
Pages (from-to)	135-139
Number of pages	5
Journal	Journal of Power Sources
Volume	203
DOIs	https://doi.org/10.1016/j.jpowsour.2011.12.023
Publication status	Published - 1 Apr 2012

Keywords

Cycling performances
Lithium-ion batteries
Negative electrode
Rate capability
Silicon nanowires

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1016/j.jpowsour.2011.12.023

Cite this

@article{c000137f8b9a436f8103e562fd27249b,

title = "Influence of the diameter distribution on the rate capability of silicon nanowires for lithium-ion batteries",

abstract = "For the first time, the effect of the nanowires diameter in terms of size and distribution on electrochemical properties of SiNWs grown by VLS was investigated. The diameter size was tuned by using three different gold catalyst film thicknesses. The crucial influence of this parameter is evidenced through comparison of the charge-discharge behavior and a study of the rate capability for the three samples. The rechargeable capacity as well as the rate capability is shown to be the best when the smallest diameters (<65 nm) are used compared to larger one (<210 nm and <490 nm). High capacity values of 3500 mAh g -1 are obtained for the smallest diameters at C/5 rate but still 2500, 1500 and 500 mAh g -1 are recovered at C, 2.5 C and 5 C. An excellent cycle life over 50 cycles is achieved at 1.3 C with a capacity of 2500 mAh g -1. This shows that by tailoring the diameter size and distribution, SiNWs can provide high power density anodes in lithium ion batteries.",

keywords = "Cycling performances, Lithium-ion batteries, Negative electrode, Rate capability, Silicon nanowires",

author = "Aur{\'e}lien Gohier and Barbara La{\"i}k and Pereira-Ramos, \{Jean Pierre\} and Cojocaru, \{Costel Sorin\} and Pierre Tran-Van",

year = "2012",

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day = "1",

doi = "10.1016/j.jpowsour.2011.12.023",

language = "English",

volume = "203",

pages = "135--139",

journal = "Journal of Power Sources",

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TY - JOUR

T1 - Influence of the diameter distribution on the rate capability of silicon nanowires for lithium-ion batteries

AU - Gohier, Aurélien

AU - Laïk, Barbara

AU - Pereira-Ramos, Jean Pierre

AU - Cojocaru, Costel Sorin

AU - Tran-Van, Pierre

PY - 2012/4/1

Y1 - 2012/4/1

N2 - For the first time, the effect of the nanowires diameter in terms of size and distribution on electrochemical properties of SiNWs grown by VLS was investigated. The diameter size was tuned by using three different gold catalyst film thicknesses. The crucial influence of this parameter is evidenced through comparison of the charge-discharge behavior and a study of the rate capability for the three samples. The rechargeable capacity as well as the rate capability is shown to be the best when the smallest diameters (<65 nm) are used compared to larger one (<210 nm and <490 nm). High capacity values of 3500 mAh g -1 are obtained for the smallest diameters at C/5 rate but still 2500, 1500 and 500 mAh g -1 are recovered at C, 2.5 C and 5 C. An excellent cycle life over 50 cycles is achieved at 1.3 C with a capacity of 2500 mAh g -1. This shows that by tailoring the diameter size and distribution, SiNWs can provide high power density anodes in lithium ion batteries.

AB - For the first time, the effect of the nanowires diameter in terms of size and distribution on electrochemical properties of SiNWs grown by VLS was investigated. The diameter size was tuned by using three different gold catalyst film thicknesses. The crucial influence of this parameter is evidenced through comparison of the charge-discharge behavior and a study of the rate capability for the three samples. The rechargeable capacity as well as the rate capability is shown to be the best when the smallest diameters (<65 nm) are used compared to larger one (<210 nm and <490 nm). High capacity values of 3500 mAh g -1 are obtained for the smallest diameters at C/5 rate but still 2500, 1500 and 500 mAh g -1 are recovered at C, 2.5 C and 5 C. An excellent cycle life over 50 cycles is achieved at 1.3 C with a capacity of 2500 mAh g -1. This shows that by tailoring the diameter size and distribution, SiNWs can provide high power density anodes in lithium ion batteries.

KW - Cycling performances

KW - Lithium-ion batteries

KW - Negative electrode

KW - Rate capability

KW - Silicon nanowires

U2 - 10.1016/j.jpowsour.2011.12.023

DO - 10.1016/j.jpowsour.2011.12.023

M3 - Article

AN - SCOPUS:84855956811

SN - 0378-7753

VL - 203

SP - 135

EP - 139

JO - Journal of Power Sources

JF - Journal of Power Sources

ER -

Influence of the diameter distribution on the rate capability of silicon nanowires for lithium-ion batteries

Abstract

Keywords

UN SDGs

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