| abstract |
The invention relates to a functional mesoporous material embedded with nanoparticles and an in-situ embedded assembly method and application. First, a surfactant, a nanoparticle and a soluble resin are dissolved in an organic solvent; with the volatilization of the solvent, the soluble resin is respectively mixed with Coordination and hydrogen bonding interactions between nanoparticles and surfactants occur and drive assembly to form an ordered mesostructure; then at a lower temperature, the resin precursor is further polymerized and crosslinked to stabilize the mesostructure; High temperature carbonization in the atmosphere, removal of surfactants, and formation of mesoscopic skeleton. The functional mesoporous material prepared by the invention can show excellent performance when applied to the catalytic oxidation of cinnamyl alcohol, and the provided method is simple, easy to repeat, and has strong universality, and the obtained material has wide application prospects in the field of catalysis. |