Ultrasmall PdAu alloy nanoparticles anchored on amine-functionalized hierarchically porous carbon as additive-free catalysts for highly efficient dehydrogenation of formic acid

The role of mass transport for bubble generation reaction as formic acid (FA) dehydrogenation has been over-looked for a long time that the turnover frequency (TOF) values of the majority of the catalysts are limited to less than 1000 h(-1). Here, we proposed a design principle of efficient catalyst for this type of reaction that the synergism of highly active catalytic components and developed porous structure of the support required for effective mass transport is indispensable. Based on this cognition, well-dispersed and ultrasmall PdAu alloy nanoparticles (similar to 2 nm) supported in amine-functionalized hierarchically porous carbon (HPC-NH2) have been prepared via an impregnation-reduction method. Notably, owing to the electronic effect of the PdAu alloy clusters and the introduced basic amine sites, as well as the hierarchically porous structure of the support, the optimal Pd60Au40/HPC-NH2 catalyst exhibits a TOF value up to 3763 h(-1) at room temperature and 29,210 h-(1) at 323 K.

Automated summary

The role of mass transport for bubble generation reaction in FA dehydrogenation has been overlooked for a long time, limiting the TOF values of most catalysts to less than 1000 h(-1). By proposing a design principle of efficient catalyst with synergism of highly active catalytic components and developed porous structure for effective mass transport, a Pd60Au40/HPC-NH2 catalyst with ultrasmall nanoparticles has been developed, exhibiting TOF values up to 3763 h(-1) at room temperature and 29,210 h(-1) at 323 K.