For realization of mobile hydrogen energy system, a technique to extract H₂ instantly from liquid fuels on a small scale must be developed. Formic acid has attracted attention as a liquid fuel for use in hydrogen fuel cells because it has high energy density, it can be handled safely, and it is promising as a primal product in artificial photosynthesis. Nevertheless, few reports have described solid catalysts that are active for hydrogen production from formic acid at room temperature without Ag-Pd heterogeneous catalysts. We previously reported AgPd@Pd core–shell catalysts formed on TiO₂ nanoparticles show strongly catalytic activity than that of bare Ag@Pd core-shell catalysts. Here, AgPd@Pd/TiO₂ nanocatalysts prepared under MW heating in aqueous solution for suppressing the alloying of Ag core and Pd, which deactivate Ag@Pd core–shell catalysts. The best hydrogen production rate was obtained using Ag₉₃Pd₇@Pd/TiO₂; 46.03 L/gh. This is the best catalytic performance ever reported in the all heterogeneous catalyst.