D
Daniel Decker
Researcher at Clariant
Publications - 49
Citations - 314
Daniel Decker is an academic researcher from Clariant. The author has contributed to research in topics: Catalysis & Polysilazane. The author has an hindex of 6, co-authored 48 publications receiving 266 citations. Previous affiliations of Daniel Decker include University of Bayreuth.
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Journal ArticleDOI
Advanced Coatings on the Basis of Si(C)N Precursors for Protection of Steel against Oxidation
TL;DR: In this paper, an effective and low-cost method for applying polysilazane-based barrier coatings on stainless steel is presented, where two precursors in the system SiCN (ABSE) and SiN (PHPS) have been used for applications of polymeric and ceramic-like coating materials.
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Particle-Filled PHPS Silazane-Based Coatings on Steel
TL;DR: In this paper, pre-precursor-based composite coatings were developed as barrier coatings on steel against oxidation and corrosion using a silazane in the system SiN as a polymer material and BN particles as a passive filler.
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Vacuum-UV irradiation-based formation of methyl-Si-O-Si networks from poly(1,1-dimethylsilazane-co-1-methylsilazane).
Lutz Prager,Luise Wennrich,Roswitha Heller,Wolfgang Knolle,Sergej Naumov,Andrea Prager,Daniel Decker,Hubert Liebe,Michael R. Buchmeiser,Michael R. Buchmeiser +9 more
TL;DR: In this article, the vacuum-UV (VUV)-induced conversion of commercially available poly(1,1-dimethylsilazane-co-1-methyl silazane) into methyl-Si-O-Si networks was studied using UV sources at wavelengths around 172, 185, and 222, respectively.
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Fire-retardant hybrid thermosetting resins from unsaturated polyesters and polysilazanes
TL;DR: In this article, an organic-inorganic thermosetting hybrid resins system based on unsaturated polyester and polysilazanes is presented, which is suitable fire-retardants for resin transfer molding due to their low viscosity.
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222 nm Photo-induced radical reactions in silazanes. A combined laser photolysis, EPR, GC-MS and QC Study
Wolfgang Knolle,Luise Wennrich,Sergej Naumov,Konstanze Czihal,Lutz Prager,Daniel Decker,Michael R. Buchmeiser +6 more
TL;DR: The initiation mechanism of the VUV-induced conversion of polyorganosilazanes into methyl-Si-O-Si networks was studied by means of model disilazane compounds and it was shown that reactive silylene intermediates do not play a role in the conversion process.