Dependence of the lone pair of bismuth on coordination environment and pressure: an ab initio study on Cu4Bi5S10 and Bi2S3

Lars Arnskov Olsen; Javier López-Solano; Alberto García; Tonci Balic Zunic; Emil Makovicky

doi:10.1016/j.jssc.2010.07.022

Dependence of the lone pair of bismuth on coordination environment and pressure: an ab initio study on Cu₄Bi₅S₁₀ and Bi₂S₃

Lars Arnskov Olsen, Javier López-Solano, Alberto García, Tonci Balic Zunic, Emil Makovicky

Geology

32 Citations (Scopus)

Abstract

DFT calculations have been carried out for Cu4Bi5S10 and Bi2S3 to provide an analysis of the relation between electronic structure, lone electron pairs and the local geometry. The effect of pressure is considered in Bi2S3 and the results are compared to published experimental data. Bi3+ in Cu4Bi5S10 is found at both symmetrically and asymmetrically coordinated sites, whereas the coordination environments of Bi in Bi2S3 are asymmetric at room conditions and get more regular with increasing pressure. The charge density maps of the asymmetric sites show the lone pairs as lobes of non-shared charge. These lobes are related to an effective Bi s–Bi p hybridization resulting from coupling to S p orbitals, supporting the modern view of the origin of the stereochemically active lone pair. No effective Bi s–p hybridization is seen for the symmetric site in Cu4Bi5S10, whereas Bi s–p hybridization coexists with a much reduced lone pair in Bi2S3 at high pressure.

Original language	English
Journal	Journal of Solid State Chemistry
Volume	183
Issue number	9
Pages (from-to)	2133-2143
Number of pages	11
ISSN	0022-4596
DOIs	https://doi.org/10.1016/j.jssc.2010.07.022
Publication status	Published - Sept 2010

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title = "Dependence of the lone pair of bismuth on coordination environment and pressure: an ab initio study on Cu4Bi5S10 and Bi2S3",

abstract = "DFT calculations have been carried out for Cu4Bi5S10 and Bi2S3 to provide an analysis of the relation between electronic structure, lone electron pairs and the local geometry. The effect of pressure is considered in Bi2S3 and the results are compared to published experimental data. Bi3+ in Cu4Bi5S10 is found at both symmetrically and asymmetrically coordinated sites, whereas the coordination environments of Bi in Bi2S3 are asymmetric at room conditions and get more regular with increasing pressure. The charge density maps of the asymmetric sites show the lone pairs as lobes of non-shared charge. These lobes are related to an effective Bi s–Bi p hybridization resulting from coupling to S p orbitals, supporting the modern view of the origin of the stereochemically active lone pair. No effective Bi s–p hybridization is seen for the symmetric site in Cu4Bi5S10, whereas Bi s–p hybridization coexists with a much reduced lone pair in Bi2S3 at high pressure.",

author = "Olsen, {Lars Arnskov} and Javier L{\'o}pez-Solano and Alberto Garc{\'i}a and {Balic Zunic}, Tonci and Emil Makovicky",

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language = "English",

volume = "183",

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journal = "Journal of Solid State Chemistry",

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T1 - Dependence of the lone pair of bismuth on coordination environment and pressure

T2 - an ab initio study on Cu4Bi5S10 and Bi2S3

AU - Olsen, Lars Arnskov

AU - López-Solano, Javier

AU - García, Alberto

AU - Balic Zunic, Tonci

AU - Makovicky, Emil

PY - 2010/9

Y1 - 2010/9

N2 - DFT calculations have been carried out for Cu4Bi5S10 and Bi2S3 to provide an analysis of the relation between electronic structure, lone electron pairs and the local geometry. The effect of pressure is considered in Bi2S3 and the results are compared to published experimental data. Bi3+ in Cu4Bi5S10 is found at both symmetrically and asymmetrically coordinated sites, whereas the coordination environments of Bi in Bi2S3 are asymmetric at room conditions and get more regular with increasing pressure. The charge density maps of the asymmetric sites show the lone pairs as lobes of non-shared charge. These lobes are related to an effective Bi s–Bi p hybridization resulting from coupling to S p orbitals, supporting the modern view of the origin of the stereochemically active lone pair. No effective Bi s–p hybridization is seen for the symmetric site in Cu4Bi5S10, whereas Bi s–p hybridization coexists with a much reduced lone pair in Bi2S3 at high pressure.

AB - DFT calculations have been carried out for Cu4Bi5S10 and Bi2S3 to provide an analysis of the relation between electronic structure, lone electron pairs and the local geometry. The effect of pressure is considered in Bi2S3 and the results are compared to published experimental data. Bi3+ in Cu4Bi5S10 is found at both symmetrically and asymmetrically coordinated sites, whereas the coordination environments of Bi in Bi2S3 are asymmetric at room conditions and get more regular with increasing pressure. The charge density maps of the asymmetric sites show the lone pairs as lobes of non-shared charge. These lobes are related to an effective Bi s–Bi p hybridization resulting from coupling to S p orbitals, supporting the modern view of the origin of the stereochemically active lone pair. No effective Bi s–p hybridization is seen for the symmetric site in Cu4Bi5S10, whereas Bi s–p hybridization coexists with a much reduced lone pair in Bi2S3 at high pressure.

U2 - 10.1016/j.jssc.2010.07.022

DO - 10.1016/j.jssc.2010.07.022

M3 - Journal article

SN - 0022-4596

VL - 183

SP - 2133

EP - 2143

JO - Journal of Solid State Chemistry

JF - Journal of Solid State Chemistry

IS - 9

ER -

Dependence of the lone pair of bismuth on coordination environment and pressure: an ab initio study on Cu4Bi5S10 and Bi2S3

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Dependence of the lone pair of bismuth on coordination environment and pressure: an ab initio study on Cu₄Bi₅S₁₀ and Bi₂S₃