Shinji Inagaki

TL;DR: In this article, the synthesis of highly ordered organic-inorganic hybrid mesoporous materials is described. But the synthesis procedure to polymerize the organosilane monomer containing two trialkoxysilyl groups in the presence of surfactant can be applied to synthesize a variety of high-order mesopore materials.

TL;DR: The surfactant-mediated synthesis of an ordered benzene–silica hybrid material has an hexagonal array of mesopores and crystal-like pore walls that exhibit structural periodicity, and it is expected that other organosilicas and organo-metal oxides can be produced in a similar fashion, to yield a range of hierarchically ordered mesoporous solids with molecular-scale pore surface periodicity.

TL;DR: The ion exchange reaction of interlayer Na+ ions of a layered polysilicate kanemite with alkyltrimetnylammonium ions, followed by calcination, gives highly ordered mesoporous materials with a hexagonal array of uniform channels as mentioned in this paper.

TL;DR: PMOs, in which the precise design of hierarchical structures and construction of multi-component systems are practicable, have a significant future in a new field of functional materials.

TL;DR: In this paper, an enzyme, horseradish peroxidase (HRP), was adsorbed in the manner of the single immersion method on the silica mesoporous materials FSM-16, MCM-41, and SBA-15 with various pore diameters from 27 to 92 A, and their enzymatic activities in an organic solvent and thermal stabilities were studied.