Hae Sung Cho

TL;DR: The synthesis of the crystalline aluminosilicate materials with tunable mesoporosity and strong acidity has potentially important technological implications for catalytic reactions of large molecules, whereas conventional mesoporous materials lack hydrothermal stability and acidity.

TL;DR: Investigation of a chromium-based metal–organic framework shows that the location of added TiO 2 inside specific mesopores strongly affects the ability of the material to catalyse photoreduction of CO 2, and facilitates photocatalytic CO 2 reduction.

TL;DR: A facile synthesis of monodispersed mesoporous silica nanoparticles possessing very large pores and application of the nanoparticles to plasmid DNA delivery to human cells is reported on.

TL;DR: In this article, the mesopores were templated by the organosilane surfactant, where the micelles were expanded by the excessive organosailane.

TL;DR: A coordination-assisted synthetic approach is reported here for the synthesis of highly active and stable gold nanoparticle catalysts in ordered mesoporous carbon materials using triblock copolymer F127 as a structure-directing agent, thiol-containing silane as a coordination agent, HAuCl4 as a gold source, and phenolic resin as a carbon source.