Scalable Bulk Synthesis of Phase-Pure γ-Sn3N4 as a Model for an Argon-Flow-Mediated Metathesis Reaction
Date
2024-11-18
Authors
Zipkat, Mirjam
Koldemir, Aylin
Block, Theresa
Ceniza, Claude
Boyko, Teak
Kläger, Sebastian
Pritzl, Reinhard
Moewes, Alexander
Pöttgen, Rainer
Rudel, Stefan Sebastian
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Wiley
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Article
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Abstract
Nitrides represent a promising class of materials for a variety of applications. However, bulk synthesis remains a challenging task due to the stability of the N2 molecule. In this study, we introduce a simple and scalable approach for synthesizing nitride bulk materials. Moderate reaction temperatures are achieved by using reactive starting materials, slow and continuous mixing of the starting materials, and by dissipating heat generated during the reaction. The impact on the synthesis of using different starting materials as nitrogen source and the influence of a flux were examined. γ-Sn3N4 was selected as the model compound. The synthesis of pure γ-Sn3N4 bulk material on a large scale has still been a challenge, although a few synthesis methods were already described in the literature. Here we synthesized γ-Sn3N4 by metathesis reaction of argon-diluted SnCl4 with Li3N, Mg3N2 or Ca3N2 as nitrogen sources. Products were characterized by powder X-ray diffraction, scanning and transmission electron microscopy, energy-dispersive X-ray spectroscopy, dynamic flash combustion analysis, hot gas extraction analysis, X-ray photoelectron spectroscopy, Mössbauer spectroscopy and X-ray absorption and emission spectroscopy. Additionally, single-crystal diffraction data of γ-Sn₃N₄, previously unavailable, were successfully collected.
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The version of record of this article, first published in Chemistry Europe, is available online at Publisher’s website: https://doi.org/10.1002/chem.202403745
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DOI
10.1002/chem.202403745