Issue 46, 2021
From the journal:

Dalton Transactions

Single source precursor route to nanometric tin chalcogenides

Veronika Brune, ORCID logo *a   Nidal Raydan,b   Anja Sutorius,a   Fabian Hartl,a   Bhagyesh Purohit,b   Sweta Gahlot,b   Pascal Bargiela,b   Laurence Burel,b   Michael Wilhelm,a   Corinna Hegemann,a   Ufuk Atamtürk,a   Sanjay Mathur ORCID logo a  and  Shashank Mishra ORCID logo *b  

* Corresponding authors

a University of Cologne, Institute of Inorganic Chemisty, Greinstraße 6, 50939 Cologne, Germany
E-mail: veronika.brune@uni-koeln.de

b Université Lyon 1, IRCELYON, CNRS-UMR 5256, 2 Avenue A. Einstein, 69626 Villeurbanne, France
E-mail: shashank.mishra@ircelyon.univ-lyon1.fr

Abstract

Low-temperature solution phase synthesis of nanomaterials using designed molecular precursors enjoys tremendous advantages over traditional high-temperature solid-state synthesis. These include atomic-level control over stoichiometry, homogeneous elemental dispersion and uniformly distributed nanoparticles. For exploiting these advantages, however, rationally designed molecular complexes having certain properties are usually required. We report here the synthesis and complete characterization of new molecular precursors containing direct Sn–E bonds (E = S or Se), which undergo facile decomposition under different conditions (solid/solution phase, thermal/microwave heating, single/mixed solvents, varying temperatures, etc.) to afford phase-pure or mixed-phase tin chalcogenide nanoflakes with defined ratios.

Graphical abstract: Single source precursor route to nanometric tin chalcogenides

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Article information

DOI
https://doi.org/10.1039/D1DT02964A
Article type
Paper
Submitted
02 Sep 2021
Accepted
01 Nov 2021
First published
17 Nov 2021
This article is Open Access
Creative Commons BY-NC license

Dalton Trans., 2021,50, 17346-17360

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Single source precursor route to nanometric tin chalcogenides

V. Brune, N. Raydan, A. Sutorius, F. Hartl, B. Purohit, S. Gahlot, P. Bargiela, L. Burel, M. Wilhelm, C. Hegemann, U. Atamtürk, S. Mathur and S. Mishra, Dalton Trans., 2021, 50, 17346 DOI: 10.1039/D1DT02964A

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