An electrochemical and structural investigation of silicon nanowires as negative electrode for Li-ion batteries

Barbara Laïk; Diane Ung; Amaël Caillard; Costel Sorin Cojocaru; Didier Pribat; Jean Pierre Pereira-Ramos

doi:10.1007/s10008-010-1045-5

An electrochemical and structural investigation of silicon nanowires as negative electrode for Li-ion batteries

Barbara Laïk
, Diane Ung
, Amaël Caillard
, Costel Sorin Cojocaru
, Didier Pribat
, Jean Pierre Pereira-Ramos

Institut de Chimie et des Matériaux de Paris Est, CNRS UPEC/UMR 7182
Institut polytechnique de Paris

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

Abstract

The electrochemical and structural responses of silicon nanowires deposited by chemical vapor deposition are investigated. Transmission electron microscopy and Xray diffraction experiments show the electrochemical lithiation of SiNWs is not a quantitative process in good agreement with cycling experiments performed as a function of cycling limits. The SiNWs are not deeply lithiated as revealed by TEM micrographs. Our results suggest the existence of two well-defined lithiation steps, first at ∼0.2 V into amorphous silicon and then into crystalline silicon at ∼0.1 V. Cycling SiNWs above 100 mV avoid the lithiation of c-Si which preserves the silicon 3-D architecture and results in good cycling performances. A stable capacity value of ∼500 mAh g ^-1 is achieved over at least 50 cycles.

Original language	English
Pages (from-to)	1835-1839
Number of pages	5
Journal	Journal of Solid State Electrochemistry
Volume	14
Issue number	10
DOIs	https://doi.org/10.1007/s10008-010-1045-5
Publication status	Published - 1 Oct 2010

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title = "An electrochemical and structural investigation of silicon nanowires as negative electrode for Li-ion batteries",

abstract = "The electrochemical and structural responses of silicon nanowires deposited by chemical vapor deposition are investigated. Transmission electron microscopy and Xray diffraction experiments show the electrochemical lithiation of SiNWs is not a quantitative process in good agreement with cycling experiments performed as a function of cycling limits. The SiNWs are not deeply lithiated as revealed by TEM micrographs. Our results suggest the existence of two well-defined lithiation steps, first at ∼0.2 V into amorphous silicon and then into crystalline silicon at ∼0.1 V. Cycling SiNWs above 100 mV avoid the lithiation of c-Si which preserves the silicon 3-D architecture and results in good cycling performances. A stable capacity value of ∼500 mAh g -1 is achieved over at least 50 cycles.",

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T1 - An electrochemical and structural investigation of silicon nanowires as negative electrode for Li-ion batteries

AU - Laïk, Barbara

AU - Ung, Diane

AU - Caillard, Amaël

AU - Cojocaru, Costel Sorin

AU - Pribat, Didier

AU - Pereira-Ramos, Jean Pierre

PY - 2010/10/1

Y1 - 2010/10/1

N2 - The electrochemical and structural responses of silicon nanowires deposited by chemical vapor deposition are investigated. Transmission electron microscopy and Xray diffraction experiments show the electrochemical lithiation of SiNWs is not a quantitative process in good agreement with cycling experiments performed as a function of cycling limits. The SiNWs are not deeply lithiated as revealed by TEM micrographs. Our results suggest the existence of two well-defined lithiation steps, first at ∼0.2 V into amorphous silicon and then into crystalline silicon at ∼0.1 V. Cycling SiNWs above 100 mV avoid the lithiation of c-Si which preserves the silicon 3-D architecture and results in good cycling performances. A stable capacity value of ∼500 mAh g -1 is achieved over at least 50 cycles.

AB - The electrochemical and structural responses of silicon nanowires deposited by chemical vapor deposition are investigated. Transmission electron microscopy and Xray diffraction experiments show the electrochemical lithiation of SiNWs is not a quantitative process in good agreement with cycling experiments performed as a function of cycling limits. The SiNWs are not deeply lithiated as revealed by TEM micrographs. Our results suggest the existence of two well-defined lithiation steps, first at ∼0.2 V into amorphous silicon and then into crystalline silicon at ∼0.1 V. Cycling SiNWs above 100 mV avoid the lithiation of c-Si which preserves the silicon 3-D architecture and results in good cycling performances. A stable capacity value of ∼500 mAh g -1 is achieved over at least 50 cycles.

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An electrochemical and structural investigation of silicon nanowires as negative electrode for Li-ion batteries

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