Synthesis of Bimodal Mesoporous Titania with High Thermal Stability via Replication of Citric Acid-Templated Mesoporous Silica

Abstract

We first synthesized the mesoporous titania, designated KRICT-MT, via replication of the citric acid (CA)-templated mesoporous silica, composed of the silica-nanosphere framework. The KRICT-MT showed the extremely high thermal stability and bimodal mesostructure with the small primary mesopores of 4−5 nm and the large secondary mesopores of 50 nm in mean pore diameter, which are three-dimensionally interconnected. In general, the anatase is transformed into the rutile by thermal treatment in the temperature range of 600−800 °C, and the mesostructure of the mesoporous titania is collapsed above 600 °C along with a significant decrease in pore properties such as specific surface area and pore volume. In contrast, the anatase−rutile phase transformation of the KRICT-MT was not observed up to 900 °C, resulting in the maintenance of its high pore properties at high temperature. In addition, we employed the KRICT-MT as a catalyst support for water−gas shift reaction. The Pt-impregnated KRICT-MT showed much high...