Platinum–Copper Bimetallic Nanodendritic Electrocatalyst on a TiO<sub>2</sub>-Based Support for Methanol Oxidation in Alkaline Fuel Cells
Hau Quoc Pham, Tai Thien Huynh
Abstract
Tuning the structure and morphology of Pt-based nanocatalysts is a facile but efficient strategy for advancing their electro-oxidation performance for small molecules. This study introduces a simple microwave-assisted process for the rapid preparation of bimetallic Pt3Cu nanodendrites (NDs) with multibranched morphology on a W-modified TiO2 nanosupport. The as-prepared nanocatalyst shows superior performance to C-supported Pt nanoparticles (NPs) (E-TEK) toward the methanol oxidation reaction with a negative onset potential, high-current density, and impressive CO tolerance and durability. The enhancement can be assigned to the unique properties of the dendritic-like nanostructure and the synergic and electronic effects of the compounds, Pt3Cu nanoalloy, and mesoporous W-modified TiO2 nanosupport. This work can open up an efficient approach for fabricating bimetallic Pt–M nanoalloys with a tunable structure and morphology to enhance their electrocatalytic performance with a decrease of Pt consumption for electrochemical energy conversion.