"alkoxy silane"
- 4 Items Found-
BIS ((TRIETHOXYSILYL) METANO ((NO CAS 18418-72-9)) y sus derivados
1. High-efficiency Bifunctional Silane Coupling Agent This product is a high-activity bifunctional ethoxysilane monomer with a unique methane-bridged double silicon structure and six hydrolyzable ethoxy groups. It can undergo efficient hydrolysis and condensation reaction with hydroxyl groups on the surface of inorganic substrates such as glass, silica, metal oxides and fillers. It builds stable chemical bridging structures between inorganic phases and organic polymer
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Se considerará que el contenido de nitrato de potasio en la mezcla de nitrato de potasio no exceda del 30% del contenido total de nitrato de potasio en la mezcla de nitrato de potasio.
1. Organic Synthesis Brominated Silylation Intermediate This product is a high-activity bifunctional silicon intermediate containing sterically hindered TBS protective group and reactive bromoalkyl segment. The terminal carbon-bromine bond possesses high chemical activity and can participate in nucleophilic substitution, coupling and chain extension reactions. It is widely applied in the structural derivation and functional modification of complex organic molecules,
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2-[[TERT-BUTIL ((DIMETIL) SILIL]OXY]ETANOL ((CAS No.102229-10-7)
1. High-efficiency Hydroxyl-protecting Silylation Reagent This product is a classic TBS-protected alcohol functional silicone reagent with stable sterically hindered tert-butyldimethylsilyl structure and active hydroxyl groups. It can efficiently and selectively protect hydroxyl active groups in organic synthesis, featuring mild reaction conditions, stable protection effect and convenient deprotection operation. It is widely used in fine organic synthesis, pharmaceutical
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BIS(METILDIMETOXISILIA)METANO(CAS NO. 18297-79-5)
1. High-efficiency Organic-inorganic Interface Coupling Agent This product is a high-activity bifunctional alkoxysilane cross-linking monomer with dual methoxysilyl reactive groups. It can undergo uniform hydrolysis and condensation reaction with hydroxyl groups on the surface of inorganic substrates such as glass, silica and metal oxides. It builds stable chemical bridging bonds between inorganic fillers and organic polymer matrices, significantly optimizing interfacial
