Silylation of layered double hydroxides via an induced hydrolysis method

Qi Tao, Jianxi Zhu, R. Mark Wellard, Thor E. Bostrom, Ray L. Frost, Peng Yuan, Hongping He
2011 Journal of Materials Chemistry  
He, Hongping (2011) Silylation of layered double hydroxides via an induced hydrolysis method. A series of layered double hydroxides (LDHs) based composites were synthesized by using induced hydrolysis silylation method (IHS), surfactant precursor method, in-situ coprecipitation method, and direct silylation method. Their structures, morphologies, bonding modes and thermal stabilities can be readily adjusted by changing the parameters during preparation and drying processing of the LDHs. The
more » ... acterization results show that the direct silylation reaction cannot occur between the dried LDHs and 10 3-aminopropyltriethoxysilane (APS) in an ethanol medium. However, the condensation reaction can proceed with heating process between adsorbed APS and LDHs plates. While using wet state substrates with and without surfactant and ethanol as the solvent, the silylation process can be induced by hydrolysis of APS on the surface of LDHs plates. Surfactants improve the hydrophobicity of the LDHs during the process of nucleation and crystallization, resulting in fluffy shaped crystals; meanwhile, they occupy the 15 surface -OH positions and leave less "free -OH" available for the silylation reaction, favoring formation of silylated products with a higher population in the hydrolyzed bidentate (T 2 ) and tridentate (T 3 ) bonding forms. These bonding characteristics lead to spherical aggregates and tightly bonded particles. All silylated products show higher thermal stability than those of pristine LDHs.
doi:10.1039/c1jm10328h fatcat:zn634zuervgnpll6y6ga2rqebe