By a one-step co-condensation route using hexadecylamine as the template, various organic groups were successfully immobilized on the surface of hexagonal mesoporous silicas (HMS) along with Co2+ ions incorporated into the framework.

The recent progress in the supramolecular-templating synthesis of ordered mesoporous silica has been reviewed.

With these alkoxy-functionalized dendrimers and TEOS as a silica source,a new organic-inorganic hybrid periodic mesoporous organosilicas was pre-pared through su.

Organo-functionalized mesoporous silica has great potentials in practical applications such as catalysis,adsorption and separation,biochemistry and electronics.

The structure of mesoporous silica before and after functionalization was investigated by high-resolution transmission electron microscopy(HRTEM),fourier transfor.

The mesoporous silica material (SH), with controlled pore size has been synthesized using hexadecyltriethylammon um bromide (CTAB) as template under acidic condition at room temperature.

Uniform Ag nano-particles was synthesized within nanoscale pores of oxidized porous silicon (OPS) by a simple solution immersion-thermal decomposition approach,forming the compound structure of Ag/OPS/silicon.

A copper inductor based on oxidized porous silicon(OPS)insulating technology is presented.

Preparation of porous silica with nanofibrous morphology from chrysotile;

The phase-separation theory was used to prepare the porous silica from silicic gel derived from fly ash.

The influence of CTAB concentration on the structure and properties of mesoporous silica films is studied as well.