Li vs. Zn substitution in Li17Si4 - Li17-                             ϵ                             -                             δZnϵSi4 connecting the structures of Li21Si5 and Li17Si4

Volodymyr Baran; Thomas F. Fässler

doi:10.1515/znb-2019-0157

Li vs. Zn substitution in Li₁₇Si₄ - Li_17- _ϵ _- _δZn_ϵSi₄ connecting the structures of Li₂₁Si₅ and Li₁₇Si₄

Volodymyr Baran, Thomas F. Fässler

Chair of Inorganic Chemistry with Focus on New Materials

Technical University of Munich

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

2 Scopus citations

Abstract

Binary lithium silicides play a crucial role in high energy density anode materials for rechargeable batteries. During charging processes of Si anodes Li₁₅Si₄ is formed as a metastable phase which has been stabilized through Li by Mg, Zn and Al substitution. Here we investigate Li by Zn substitution in the lithium-richest phase Li₁₇Si₄ and report on the particular site preference of Zn atoms since Zn is substituting Li atoms only on one out of 13 possible lithium sites. This site preference shows an interesting relation to the closely related phase Li₂₁Si₅ and thus Li_17- _ϵ _- _δZn_ϵSi₄ with ϵ = 0.025(1) and δ= 0.033(1) can be considered as the missing link between the structures of Li₂₁Si₅ (= Li_4.20Si) and Li₁₇Si₄ (= Li_4.25Si).

Original language	English
Pages (from-to)	91-96
Number of pages	6
Journal	Zeitschrift fur Naturforschung - Section B Journal of Chemical Sciences
Volume	75
Issue number	1-2
DOIs	https://doi.org/10.1515/znb-2019-0157
State	Published - 1 Feb 2020

Keywords

crystal structure
lithium
silicon
synthesis

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Baran, V., & Fässler, T. F. (2020). Li vs. Zn substitution in Li₁₇Si₄ - Li_17- _ϵ _- _δZn_ϵSi₄ connecting the structures of Li₂₁Si₅ and Li₁₇Si₄ Zeitschrift fur Naturforschung - Section B Journal of Chemical Sciences, 75(1-2), 91-96. https://doi.org/10.1515/znb-2019-0157

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title = "Li vs. Zn substitution in Li17Si4 - Li17- ϵ - δZnϵSi4 connecting the structures of Li21Si5 and Li17Si4 ",

abstract = "Binary lithium silicides play a crucial role in high energy density anode materials for rechargeable batteries. During charging processes of Si anodes Li15Si4 is formed as a metastable phase which has been stabilized through Li by Mg, Zn and Al substitution. Here we investigate Li by Zn substitution in the lithium-richest phase Li17Si4 and report on the particular site preference of Zn atoms since Zn is substituting Li atoms only on one out of 13 possible lithium sites. This site preference shows an interesting relation to the closely related phase Li21Si5 and thus Li17- ϵ - δZnϵSi4 with ϵ = 0.025(1) and δ= 0.033(1) can be considered as the missing link between the structures of Li21Si5 (= Li4.20Si) and Li17Si4 (= Li4.25Si).",

keywords = "crystal structure, lithium, silicon, synthesis",

author = "Volodymyr Baran and F{\"a}ssler, {Thomas F.}",

note = "Publisher Copyright: {\textcopyright} 2020 Walter de Gruyter GmbH, Berlin/Boston 2020.",

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language = "English",

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Baran, V & Fässler, TF 2020, 'Li vs. Zn substitution in Li₁₇Si₄ - Li_17- _ϵ _- _δZn_ϵSi₄ connecting the structures of Li₂₁Si₅ and Li₁₇Si₄ ', Zeitschrift fur Naturforschung - Section B Journal of Chemical Sciences, vol. 75, no. 1-2, pp. 91-96. https://doi.org/10.1515/znb-2019-0157

Li vs. Zn substitution in Li₁₇Si₄ - Li_17- _ϵ _- _δZn_ϵSi₄ connecting the structures of Li₂₁Si₅ and Li₁₇Si₄ . / Baran, Volodymyr; Fässler, Thomas F.
In: Zeitschrift fur Naturforschung - Section B Journal of Chemical Sciences, Vol. 75, No. 1-2, 01.02.2020, p. 91-96.

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

TY - JOUR

T1 - Li vs. Zn substitution in Li17Si4 - Li17- ϵ - δZnϵSi4 connecting the structures of Li21Si5 and Li17Si4

AU - Baran, Volodymyr

AU - Fässler, Thomas F.

PY - 2020/2/1

Y1 - 2020/2/1

N2 - Binary lithium silicides play a crucial role in high energy density anode materials for rechargeable batteries. During charging processes of Si anodes Li15Si4 is formed as a metastable phase which has been stabilized through Li by Mg, Zn and Al substitution. Here we investigate Li by Zn substitution in the lithium-richest phase Li17Si4 and report on the particular site preference of Zn atoms since Zn is substituting Li atoms only on one out of 13 possible lithium sites. This site preference shows an interesting relation to the closely related phase Li21Si5 and thus Li17- ϵ - δZnϵSi4 with ϵ = 0.025(1) and δ= 0.033(1) can be considered as the missing link between the structures of Li21Si5 (= Li4.20Si) and Li17Si4 (= Li4.25Si).

AB - Binary lithium silicides play a crucial role in high energy density anode materials for rechargeable batteries. During charging processes of Si anodes Li15Si4 is formed as a metastable phase which has been stabilized through Li by Mg, Zn and Al substitution. Here we investigate Li by Zn substitution in the lithium-richest phase Li17Si4 and report on the particular site preference of Zn atoms since Zn is substituting Li atoms only on one out of 13 possible lithium sites. This site preference shows an interesting relation to the closely related phase Li21Si5 and thus Li17- ϵ - δZnϵSi4 with ϵ = 0.025(1) and δ= 0.033(1) can be considered as the missing link between the structures of Li21Si5 (= Li4.20Si) and Li17Si4 (= Li4.25Si).

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KW - silicon

KW - synthesis

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Li vs. Zn substitution in Li₁₇Si₄ - Li_17- _ϵ _- _δZn_ϵSi₄ connecting the structures of Li₂₁Si₅ and Li₁₇Si₄

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