Activity and sulfur resistance of co-impregnated bimetallic PdNi/γ-Al2O3 catalysts during hydrogenation of styrene

Abstract: Pyrolysis gasoline (PyGas) is an unstable byproduct of the pyrolysis of naphtha and other hydrocarbons for the production of olefins. PyGas is stabilized by hydrogenation at mild conditions. The hydrogenation of styrene to ethylbenzene is considered a model test reaction for studying the selectivity of the catalysts because it has the slowest rate of conversion. The catalytic activity and selectivity of two bimetallic coimpregnated Pd-Ni catalysts supported on γ-alumina were assessed and compared to those of a… Show more

“…Therefore, Pd δ + species are more sulfur-resistant than Pd 0 in Pd catalysts. 56–58 The higher the sulfur-doping content of the AC support, the more Pd metal there is in the electron-deficient valence state in the corresponding Pd/C catalyst. The Pd/C4 and Pd/C5 catalysts showed a significantly increased Pd 2+ content compared to the catalysts with less sulfur doping.…”

Pd/N, S co-doped activated carbon as a highly-efficient catalyst for the one-pot synthesis of meropenem

“…Therefore, Pd δ + species are more sulfur-resistant than Pd 0 in Pd catalysts. 56–58 The higher the sulfur-doping content of the AC support, the more Pd metal there is in the electron-deficient valence state in the corresponding Pd/C catalyst. The Pd/C4 and Pd/C5 catalysts showed a significantly increased Pd 2+ content compared to the catalysts with less sulfur doping.…”

Pd/N, S co-doped activated carbon as a highly-efficient catalyst for the one-pot synthesis of meropenem

Elucidation of the Effect of TiO2 in the Synthesized Nanocatalyst of Co–Mo@Al2O3–TiO2 for the Hydrogenation of C6–C8 Olefins

In Situ DRIFTS Investigation During the Adsorption of 1-Pentyne and Catalytic Performance of Pd–Ni Bimetallic Catalysts for Olefinic Purification