Xin Wang scite author profile

Production conditions of the condensed phases (b-SiC, silicon, and graphite) in the CVD of methyltrichlorosilane (MTS) pyrolysis are investigated in detail with thermodynamic analyses based on a relatively complete and refined database. Production of the condensed phases is examined as a function of temperature, pressure, and the initial gas ratio of H 2 / MTS. The results show that the composition of the condensed phase is quite sensitive to both temperature and the molar ratio of H 2 /MTS, whereas it is less sensitive to pressure. The ideal conditions for the deposition of b-SiC are temperatures between 1300 and 1500 K, H 2 /MTS ratios between 10 and 10 5 , and with pressures as low as convenient. The co-deposition of C or Si with b-SiC is mainly controlled by the ratio of H 2 /MTS. The co-deposition of C with b-SiC should be in low H 2 /MTS ratios (<10) and the codeposition of Si with b-SiC needs high H 2 /MTS ratios (>10 4 ). The results are in very good agreement with experimental findings and previous theoretical investigations. The present work is also instructive as to the experimental conditions relating to continuous regions of temperatures, pressures, and the H 2 /MTS ratios.

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A Nonlinear Safety Equilibrium Spacing-Based Model Predictive Control for Virtually Coupled Train Set Over Gradient Terrains

She

et al. 2022

IEEE Trans. Transp. Electrific.

116

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Strong and crack-resistant hydrogel derived from pomelo peel for highly sensitive wearable sensors

Yang

Chen

Zhou

et al. 2022

Chemical Engineering Journal

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Xin Wang

The ship maneuverability based collision avoidance dynamic support system in close-quarters situation

Thermodynamics of the Production of Condensed Phases in the CVD of Methyltrichlorosilane Pyrolysis

A Nonlinear Safety Equilibrium Spacing-Based Model Predictive Control for Virtually Coupled Train Set Over Gradient Terrains

Strong and crack-resistant hydrogel derived from pomelo peel for highly sensitive wearable sensors

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