Synthesis of highly dispersed and active palladium/carbon nanofiber catalyst for formic acid electrooxidation

## Abstract PdSn/C catalysts with different atomic ratios of Pd to Sn were synthesised by a NaBH~4~ reduction method. Electrochemical tests show that the alloy catalysts exhibit significantly higher catalytic activity and stability for formic acid electrooxidation (FAEO) than the Pd/C catalyst prep

An experimentally simple process is reported in aqueous solution and under ambient conditions to prepare highly dispersed and active Pd/C catalyst without the use of a stabilizing agent. The [Pd(NH 3 ) 4 ] 2+ ion is synthesized with gentle heating in aqueous ammonia solution without formation of Pd(

## Abstract Novel multi‐wall carbon nanotubes (MWCNTs) supported Pd–Au catalyst for electrooxidation of formic acid was prepared and compared with a similarly prepared Pd/MWCNTs and with a commercial Pt–Ru/Vulcan catalyst. The catalysts were prepared by a two‐stage polyol method, followed by H~2~–A

## Abstract Pd catalyst supported on Vulcan XC‐72 carbon black was prepared by a modified polyol process. Its performance was compared with that of Pd/C catalyst prepared by impregnation reduction method by using NaBH~4~ as a reducing agent for formic acid electrooxidation. Their physical character

A variety of palladium on activated carbon catalysts differing in Pd dispersion, Pd distribution, Pd oxidation state, and water content were tested in Heck reactions of aryl bromides with olefins. The optimization of the catalyst (structure ± activity relationship) and reaction conditions (temperatu