Detailed kinetics of methylphenyldichlorosilane synthesis from methyldichlorosilane and chlorobenzene by gas phase condensation

Methylphenyldichlorosilane (MPDS, CH3C6H5SiCl2) is an important silicone monomer for the synthesis of high-performance polymethylphenylsiloxane polymers. In this work, the mechanism of the synthesis of MPDS from methyldichlorosilane and chlorobenzene by gas phase condensation was studied, and a kinetic model with 35 species and 58 elementary reactions was established. Experiments were carried out in a tubular reactor under a wide range of reaction conditions. The calculated mole fractions of the reactants and products were in a good agreement with the experimental results. A mechanism of the insertion of chloromethylsilylene into the CCl bond of chlorobenzene was proposed, which was proved to be the main pathway of MPDS production. The established kinetic model can be used in design and optimization of the industrial reactor for MPDS synthesis.

Graphical abstractA detailed kinetic model of the synthesis of methylphenyldichlorosilane (MPDS) from methyldichlorosilane and chlorobenzene by gas phase condensation was developed. The calculated results were in a good agreement with the experimental results. The main pathway of MPDS production was proposed and proved. The kinetic model can be used in design and optimization of the industrial reactor for MPDS synthesis.Figure optionsDownload full-size imageDownload as PowerPoint slide