Synthesis of p-aminophenol by transfer hydrogenation of nitrobenzene using formic acid as hydrogen source

With UiO-66 as the precursor, ZrO2@C was prepared by calcination in N2 atmosphere. Then, Pd/ZrO2@C was prepared by impregnation method. In this paper, the catalytic transfer hydrogenation of nitrobenzene (NB) to p-aminophenol (PAP) over Pd/ZrO2@C+SO42-/ZrO2 was studied with formic acid (FA) as hydrogen source. Characterization results showed that tetragonal ZrO2 was present in ZrO2@C and was embedded in amorphous C. With the increase of calcination temperature and time in the air, the C content and specific surface area of ZrO2@C decreased accordingly, while the Pd particle size became larger. Pd in the Pd/ZrO2@C catalyst was in the form of Pd0 and Pd2+. The content of Pd2+ decreased with C content, While the content of Pd0 increased. When the content of Pd0 was higher than that of Pd2+, PAP selectivity decreased obviously. Pd/ZrO2@C-200-4+SO42-/ZrO2 exhibited good catalytic activity at 140℃ for 6h. The conversion of NB was 63.7% and the selectivity of PAP was 42.3%. © 2024 Chemical Industry Press Co., Ltd.. All rights reserved.