Affiliation:
1. Faculty of Production Engineering University of Bremen Badgasteiner Straße 1 D‐28359 Bremen Germany
2. Leibniz Institute for Materials Engineering IWT Badgasteiner Straße 3 D‐28359 Bremen Germany
3. MAPEX Center for Materials and Processes University of Bremen D‐28359 Bremen Germany
4. Institute of Solid State Physics University of Bremen Otto‐Hahn‐Allee 1 28359 Bremen Germany
5. Faculty of Geosciences/ Crystallography group University of Bremen Klagenfurter Str. 2‐4 28359 Bremen Germany
Abstract
AbstractThe development of a novel reactive spray technology based on the well‐known gas‐phase metal oxide synthesis route provides innumerable opportunities for the production of non‐oxide nanoparticles. Among these materials, metal sulfides are expected to have a high impact, especially in the development of electrochemical and photochemical high‐surface‐area materials. As a proof‐of‐principle, MnS, CoS, Cu2S, ZnS, Ag2S, In2S3, SnS, and Bi2S3 are synthesized in an O2‐lean and sulfur‐rich environment. In addition, the formation of Cu2S in a single‐droplet combustion experiment is reported. The multiscale approach combining flame sprays with single‐droplet combustion is expected to pave the way toward a fundamental understanding of the gas‐phase formation of metal sulfides in the future. The knowledge acquired can open the possibility for the development of a next‐generation gas‐phase technology facilitating the scalable synthesis of functional binary/ternary metal sulfides.
Funder
European Research Council
Subject
Mechanical Engineering,Mechanics of Materials,General Materials Science
Cited by
5 articles.
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