Catalytic performance:
Triphenylsilanol can be used as a catalyst in organic synthesis, especially in the dehydrogenation reaction with hydrogenated silicone oil. Studies have shown that triphenylsilanol and hydrogenated silicone oil can undergo dehydrogenation reaction under the catalysis of stannous octoate or chloroplatinic acid, among which chloroplatinic acid has been confirmed to be a better catalyst.
When the mass ratio of triphenylsilanol to hydrogenated silicone oil is not greater than 2.20, triphenylsilanol can react completely after reacting at 110°C for 2 hours.

Uses:
Triphenylsilanol is mainly used for the preparation of pharmaceutical intermediates or the synthesis of other polymers. Due to its excellent chemical properties, it has a wide range of applications in organic synthesis, catalysts and surfactants.

In summary, triphenylsilanol, as an organosilicon compound, not only has unique chemical properties, but also exhibits good catalytic performance in organic synthesis, especially in the fields of pharmaceutical intermediates and polymer synthesis. It has broad application prospects. At the same time, due to its specific hazards, it is necessary to strictly abide by the safety operating procedures when using it.