Thiol-assisted regulated electronic structure of ultrafine Pd-based catalyst for superior formic acid electrooxidation performances

In order to further boost the electrocatalytic performances of small organic molecule oxidation and maintain the structure stability of Pd-based catalyst during long cycle, a new ligand compound (i.e. propanethiol) was introduced into the Pd/C anode catalyst to prepared Pd/C-SH catalyst by two main steps of propanethiol adsorbed on Vulcan XC-72 carbon (C-SH) by water bath impregnation method and Pd nanoparticles anchored on the functionalized C-SH support by improved liquid reduction method. Results showed that the Pd nanoparticles with high dispersion in Pd/C-SH catalyst were obtained and their particle size distribution was in the range of 1.6-4.8 nm. Moreover, Pd particle size became smaller with the modification of propanethiol, indicating that propanethiol could facilitate the formation of smaller Pd. Electrochemical measurements showed that the mass activity of Pd/C-SH (1229 mA mg(-1)) was 4.6 times that of Pd/C (267 mA mg(-1)) towards formic acid oxidation. Higher stability (30 times higher than Pd/C) and more faster charge transfer kinetics of oxidation reaction were also recorded for Pd/C-SH catalyst. The enhancement of electrochemical performances of Pd/C-SH catalyst might be related to highly dispersed Pd with reduced particle size, adjusted electronic structure of Pd as well as maintained stable Pd structure and particle size.