Silicon Core Technology Drives Intelligent Sensing—Optimized transmittance of special phenyl silicone oil reduces sensor encapsulation light loss by 70% and achieves signal stability of 99.99%; Thermally conductive gel compounding technology reduces chip thermal resistance to as low as 0.15℃·in²/W, Read More

Silicon Synthesis Technology Catalyzes Green Transformation—Polyether-modified silicone oil block copolymerization achieves a precise 95% open-cell ratio for polyurethane and increases sponge resilience to over 60%; Special MQ resin silanol end-capping technology enables pressure-sensitive adhesives Read More

Silicon Energy Technology Empowers the Energy Revolution—High refractive index design of phenyl silicone oil increases photovoltaic film transmittance to 93% and module power gain by 2.5%; Nano-doping of thermally conductive silicone grease achieves a thermal conductivity exceeding 5.0W/m·K, ensurin Read More

Silicon-based technologies empower structural renewal—methylsilicate crystallization technology reduces concrete water absorption by 90%, and combined with alkyl silicone oil, achieves 20-year self-cleaning for exterior walls; phenyl silicone oil-modified sealant, through molecular cross-linking opt Read More

Silicon Microelectronics connects the world of precision—low-volatile control of vinyl phenyl silicone oil enables photoresist film uniformity of ±1nm; dual curing of organosilicon conformal coating constructs a 50-micron ultra-thin protective layer, resistant to salt spray for over 1000 hours, ensu Read More

Silicon Microelectronics explores extreme environments—specialized phenyl silicone rubber molecular chain modification enables sealing materials to maintain 150% elongation at break under extreme temperature differences from -70℃ to 300℃; the ablation-resistant silicone resin ceramic carbonization m Read More

Silicon-based technologies define tactile aesthetics—amino silicone oil microemulsions with precise diameter control increase leather softness by 3 times, maintaining its original translucency; hydroxyl silicone oil multi-dimensional cross-linking enables automotive leather to withstand 3000 hours o Read More

Silicon-based technologies construct an invisible barrier—methylhydrosilicone oil directional cross-linking technology increases the breathability of the waterproof layer by 40% and withstands hydrostatic pressure exceeding 2.5 MPa; special silane emulsions, through penetration bonding, reduce the w Read More

Silicon ink technology empowers a color revolution – Polyether-modified silicone oil, through molecular-level modification, enables coatings to pass 5000-hour salt spray tests for weather resistance. Improved leveling properties result in mirror-like surface smoothness for inks, and scratch resistan Read More