Room‐Temperature Solid‐State Transformation of Na(4)SnS(4) ⋅ 14H(2)O into Na(4)Sn(2)S(6) ⋅ 5H(2)O: An Unusual Epitaxial Reaction Including Bond Formation, Mass Transport, and Ionic Conductivity

A highly unusual solid‐state epitaxy‐induced phase transformation of Na(4)SnS(4) ⋅ 14H(2)O (I) into Na(4)Sn(2)S(6) ⋅ 5H(2)O (II) occurs at room temperature. Ab initio molecular dynamics (AIMD) simulations indicate an internal acid‐base reaction to form [SnS(3)SH](3−) which condensates to [Sn(2)S(6)]...

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Autores principales: Benkada, Assma, Hartmann, Felix, A. Engesser, Tobias, Indris, Sylvio, Zinkevich, Tatiana, Näther, Christian, Lühmann, Henning, Reinsch, Helge, Adams, Stefan, Bensch, Wolfgang
Formato: Online Artículo Texto
Lenguaje:English
Publicado: John Wiley and Sons Inc. 2022
Materias:
Research Articles
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10099607/
https://www.ncbi.nlm.nih.gov/pubmed/36214658
http://dx.doi.org/10.1002/chem.202202318
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author Benkada, Assma
Hartmann, Felix
A. Engesser, Tobias
Indris, Sylvio
Zinkevich, Tatiana
Näther, Christian
Lühmann, Henning
Reinsch, Helge
Adams, Stefan
Bensch, Wolfgang
author_facet Benkada, Assma
Hartmann, Felix
A. Engesser, Tobias
Indris, Sylvio
Zinkevich, Tatiana
Näther, Christian
Lühmann, Henning
Reinsch, Helge
Adams, Stefan
Bensch, Wolfgang
author_sort Benkada, Assma
collection PubMed
description A highly unusual solid‐state epitaxy‐induced phase transformation of Na(4)SnS(4) ⋅ 14H(2)O (I) into Na(4)Sn(2)S(6) ⋅ 5H(2)O (II) occurs at room temperature. Ab initio molecular dynamics (AIMD) simulations indicate an internal acid‐base reaction to form [SnS(3)SH](3−) which condensates to [Sn(2)S(6)](4−). The reaction involves a complex sequence of O−H bond cleavage, S(2−) protonation, Sn−S bond formation and diffusion of various species while preserving the crystal morphology. In situ Raman and IR spectroscopy evidence the formation of [Sn(2)S(6)](4−). DFT calculations allowed assignment of all bands appearing during the transformation. X‐ray diffraction and in situ (1)H NMR demonstrate a transformation within several days and yield a reaction turnover of ≈0.38 %/h. AIMD and experimental ionic conductivity data closely follow a Vogel‐Fulcher‐Tammann type T dependence with D(Na)=6×10(−14) m(2) s(−1) at T=300 K with values increasing by three orders of magnitude from −20 to +25 °C.
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spelling pubmed-100996072023-04-14 Room‐Temperature Solid‐State Transformation of Na(4)SnS(4) ⋅ 14H(2)O into Na(4)Sn(2)S(6) ⋅ 5H(2)O: An Unusual Epitaxial Reaction Including Bond Formation, Mass Transport, and Ionic Conductivity Benkada, Assma Hartmann, Felix A. Engesser, Tobias Indris, Sylvio Zinkevich, Tatiana Näther, Christian Lühmann, Henning Reinsch, Helge Adams, Stefan Bensch, Wolfgang Chemistry Research Articles A highly unusual solid‐state epitaxy‐induced phase transformation of Na(4)SnS(4) ⋅ 14H(2)O (I) into Na(4)Sn(2)S(6) ⋅ 5H(2)O (II) occurs at room temperature. Ab initio molecular dynamics (AIMD) simulations indicate an internal acid‐base reaction to form [SnS(3)SH](3−) which condensates to [Sn(2)S(6)](4−). The reaction involves a complex sequence of O−H bond cleavage, S(2−) protonation, Sn−S bond formation and diffusion of various species while preserving the crystal morphology. In situ Raman and IR spectroscopy evidence the formation of [Sn(2)S(6)](4−). DFT calculations allowed assignment of all bands appearing during the transformation. X‐ray diffraction and in situ (1)H NMR demonstrate a transformation within several days and yield a reaction turnover of ≈0.38 %/h. AIMD and experimental ionic conductivity data closely follow a Vogel‐Fulcher‐Tammann type T dependence with D(Na)=6×10(−14) m(2) s(−1) at T=300 K with values increasing by three orders of magnitude from −20 to +25 °C. John Wiley and Sons Inc. 2022-11-16 2023-01-02 /pmc/articles/PMC10099607/ /pubmed/36214658 http://dx.doi.org/10.1002/chem.202202318 Text en © 2022 The Authors. Chemistry - A European Journal published by Wiley-VCH GmbH https://creativecommons.org/licenses/by-nc/4.0/This is an open access article under the terms of the http://creativecommons.org/licenses/by-nc/4.0/ (https://creativecommons.org/licenses/by-nc/4.0/) License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited and is not used for commercial purposes.
spellingShingle Research Articles
Benkada, Assma
Hartmann, Felix
A. Engesser, Tobias
Indris, Sylvio
Zinkevich, Tatiana
Näther, Christian
Lühmann, Henning
Reinsch, Helge
Adams, Stefan
Bensch, Wolfgang
Room‐Temperature Solid‐State Transformation of Na(4)SnS(4) ⋅ 14H(2)O into Na(4)Sn(2)S(6) ⋅ 5H(2)O: An Unusual Epitaxial Reaction Including Bond Formation, Mass Transport, and Ionic Conductivity
title Room‐Temperature Solid‐State Transformation of Na(4)SnS(4) ⋅ 14H(2)O into Na(4)Sn(2)S(6) ⋅ 5H(2)O: An Unusual Epitaxial Reaction Including Bond Formation, Mass Transport, and Ionic Conductivity
title_full Room‐Temperature Solid‐State Transformation of Na(4)SnS(4) ⋅ 14H(2)O into Na(4)Sn(2)S(6) ⋅ 5H(2)O: An Unusual Epitaxial Reaction Including Bond Formation, Mass Transport, and Ionic Conductivity
title_fullStr Room‐Temperature Solid‐State Transformation of Na(4)SnS(4) ⋅ 14H(2)O into Na(4)Sn(2)S(6) ⋅ 5H(2)O: An Unusual Epitaxial Reaction Including Bond Formation, Mass Transport, and Ionic Conductivity
title_full_unstemmed Room‐Temperature Solid‐State Transformation of Na(4)SnS(4) ⋅ 14H(2)O into Na(4)Sn(2)S(6) ⋅ 5H(2)O: An Unusual Epitaxial Reaction Including Bond Formation, Mass Transport, and Ionic Conductivity
title_short Room‐Temperature Solid‐State Transformation of Na(4)SnS(4) ⋅ 14H(2)O into Na(4)Sn(2)S(6) ⋅ 5H(2)O: An Unusual Epitaxial Reaction Including Bond Formation, Mass Transport, and Ionic Conductivity
title_sort room‐temperature solid‐state transformation of na(4)sns(4) ⋅ 14h(2)o into na(4)sn(2)s(6) ⋅ 5h(2)o: an unusual epitaxial reaction including bond formation, mass transport, and ionic conductivity
topic Research Articles
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10099607/
https://www.ncbi.nlm.nih.gov/pubmed/36214658
http://dx.doi.org/10.1002/chem.202202318
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