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Boron-modified perhydropolysilazane towards facile synthesis of amorphous SiBN ceramic with excellent thermal stability

by Ricohermoso, Emmanuel , Müller-Plathe, Florian , Yu, Zhaoju , Wu, Zhenghao , Riedel, Ralf , Bernauer, Jan , Zhan, Ying , Li, Wei , Jiang, Tianshu , Fasel, Claudia , Grottenmüller, Ralf , Molina-Luna, Leopoldo

in Ammonolysis / Amorphous materials / Amorphous silicon / Boron / Ceramic materials / Ceramics / Characterization and Evaluation of Materials / Chemistry and Materials Science / Chlorine / Composites / Crystallization / Diffusion / Dimethyl sulfide / Electric properties / Glass / High temperature / Materials Science / Molecular dynamics / Nanotechnology / Natural Materials / Nitrides / Oxidation resistance / Pharmaceutical industry / Precursors / Research Article / Silicon compounds / Silicon nitride / Structural Materials / Synthesis / Thermal resistance / Thermal stability

2022

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Boron-modified perhydropolysilazane towards facile synthesis of amorphous SiBN ceramic with excellent thermal stability

2022

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Boron-modified perhydropolysilazane towards facile synthesis of amorphous SiBN ceramic with excellent thermal stability

2022

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Journal Article

Boron-modified perhydropolysilazane towards facile synthesis of amorphous SiBN ceramic with excellent thermal stability

Ricohermoso, Emmanuel,

Müller-Plathe, Florian,

Yu, Zhaoju,

Wu, Zhenghao,

Riedel, Ralf,

Bernauer, Jan,

Zhan, Ying,

Li, Wei,

Jiang, Tianshu,

Fasel, Claudia,

Grottenmüller, Ralf,

Molina-Luna, Leopoldo

2022

Overview

SiBN ceramics are widely considered to be the most promising material for microwave-transparent applications in harsh environments owing to its excellent thermal stability and low dielectric constant. This work focuses on the synthesis and ceramization of single-source precursors for the preparation of SiBN ceramics as well as the investigation of the corresponding microstructural evolution at high temperatures including molecular dynamic simulations. Carbon- and chlorine-free perhydropolysilazanes were reacted with borane dimethyl sulfide complex at different molar ratios to synthesize single-source precursors, which were subsequently pyrolyzed and annealed under N 2 atmosphere (without ammonolysis) to prepare SiBN ceramics at 1100, 1200, and 1300 °C with high ceramic yield in contrast to previously widely-used ammonolysis synthesis process. The obtained amorphous SiBN ceramics were shown to have remarkably improved thermal stability and oxidation resistance compared to amorphous silicon nitride. Particularly, the experimental results have been combined with molecular dynamics simulation to further study the amorphous structure of SiBN and the atomic-scale diffusion behavior of Si, B, and N at 1300 °C. Incorporation of boron into the Si—N network is found to suppress the crystallization of the formed amorphous silicon nitride and hence improves its thermal stability in N 2 atmosphere.

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Publisher

Tsinghua University Press,Springer

Subject

Ammonolysis

/ Amorphous materials

/ Amorphous silicon

/ Boron

/ Ceramic materials

/ Ceramics

/ Characterization and Evaluation of Materials