When carbon neutrality becomes a global consensus, silicon-based materials demonstrate unique environmental value. The application of phenyl silica gel in the field of catalyst support significantly improves the utilization rate of precious metal catalysts through its high specific surface area and chemical inertness.

In the automobile exhaust purification system, the phenyl silica gel catalyst loaded with platinum group metals can lower the carbon monoxide conversion temperature by 50 ℃ and reduce the amount of precious metals by 35%. The consumption of platinum group metals in industrial waste gas treatment is reduced by more than 30%, directly promoting the efficient circulation of rare metal resources.

And the closed-loop recycling technology of liquid silicone rubber has also made breakthrough progress. Through the supercritical fluid depolymerization process, waste silicone rubber products can be reduced to initial polysiloxane monomers, with a recycling rate exceeding 85%. A certain construction enterprise adopts this sealant made of recycled silicone rubber, which has a tensile strength retention rate of 92% and a VOC emission of less than 0.5 μ g/m ³, fully complying with green building standards.

In the field of construction, sealing materials based on liquid silicone rubber have replaced traditional asphalt based products through molecular structure design. Its service life is extended to 30 years without frequent replacement, significantly reducing the carbon footprint of the entire life cycle of the building. This full cycle green innovation, from raw material synthesis to end use applications, is injecting new connotations of sustainable development into materials science.

Regarding liquid silicone rubber, please refer to our website for details: IOTA Liquid Silicone Rubber