Affiliation:
1. Renewable Energy Research Center National Institute of Advanced Industrial Science and Technology 2-2-9 Machiikedai Koriyama Fukushima 963-0298 Japan
2. School of Material and Chemical Technology Tokyo Institute and Technology 2-12-1 Ookayama Meguro-ku, Tokyo 152-8552 Japan
Abstract
AbstractThe effect of drying conditions on the physicochemical and catalytic properties of TiO2 were examined for NO to ammonia reaction. TiO2 prepared by different drying conditions such as evaporation (EP), evaporation under reduced pressure (ER) and evaporation under freeze drying conditions (EF) was used for support for Pt loading. At low temperature (below 175 °C), the order for ammonia formation was Pt/TiO2(ER)>Pt/TiO2(EP)>Pt/TiO2(EF). Notably, Pt/TiO2(ER) catalyst was more effective than Pt/TiO2 prepared from commercially available TiO2. The characterization of these catalysts revealed that rutile‐rich phase TiO2, high Pt dispersion and moderate acidic sites were influential factors for ammonia formation. TiO2 drying conditions modified surface properties of TiO2 and consequently, catalytic activity for ammonia formation.
Funder
Moonshot Research and Development Program
New Energy and Industrial Technology Development Organization