Facile self-assembly processes to phenylene-bridged silica monoliths with four levels of hierarchy

The synthesis of phenylene-bridged silica monolithic materials with hierarchical pore structures was investigated. It was observed that the hydrophilic character of ethylene glycol strongly enhances the phenylene-bridged silica/surfactant self-assembly process. The degree of periodicity within the pore walls was found to be lower in comparison to that of materials templated with a cationic surfactant. It was found that the method represents a versatile tool for tailoring the chemical functionality of monolithic materials with well-defined, multimodal pore structures, thus increasing their potential application significantly.