The hydrogenation of citral was investigated using various palladium-and rhodium-based catalytic systems. We explored both Pd and Rh nanoparticles stabilized by K-carrageenan in a biphasic water/THF system, as well as several heterogeneous catalysts with low precious metal content. In particular, the heterogenous catalysts employed were Pd/Al2O3 (0.3% Pd w/w), Rh/Al2O3 (0.18% Rh w/w), and HNTs@PDA/PdNPs (0.8% Pd w/w), obtained using a site-specific polydopamine coating on the external surface of halloysite as support. Across all experiments, palladium-based catalysts consistently demonstrated superior activity and selectivity compared to their rhodium counterparts. Notably, the catalytic systems exhibit a very different selectivity. Indeed, both Pd-and Rh-based water-soluble catalysts, as well as the heterogeneous Rh/Al2O3 catalytic system, favor the formation of citronellal, due to the hydrogenation of the carbon-carbon double bond conjugated to the carbonyl group. In contrast, the two heterogeneous palladium-based catalysts strongly promote the formation of menthol through the cyclization of citronellal, in some cases achieving nearly complete selectivity.
Paganelli, S., D'Acunzi, C., Riela, S., Massaro, M., Michele, A.D., Muzzi, B., et al. (2026). Selective hydrogenation of citral: A catalytic challenge. MOLECULAR CATALYSIS, 593, 1-11 [10.1016/j.mcat.2026.115765].
Selective hydrogenation of citral: A catalytic challenge
Massaro M.;
2026-03-15
Abstract
The hydrogenation of citral was investigated using various palladium-and rhodium-based catalytic systems. We explored both Pd and Rh nanoparticles stabilized by K-carrageenan in a biphasic water/THF system, as well as several heterogeneous catalysts with low precious metal content. In particular, the heterogenous catalysts employed were Pd/Al2O3 (0.3% Pd w/w), Rh/Al2O3 (0.18% Rh w/w), and HNTs@PDA/PdNPs (0.8% Pd w/w), obtained using a site-specific polydopamine coating on the external surface of halloysite as support. Across all experiments, palladium-based catalysts consistently demonstrated superior activity and selectivity compared to their rhodium counterparts. Notably, the catalytic systems exhibit a very different selectivity. Indeed, both Pd-and Rh-based water-soluble catalysts, as well as the heterogeneous Rh/Al2O3 catalytic system, favor the formation of citronellal, due to the hydrogenation of the carbon-carbon double bond conjugated to the carbonyl group. In contrast, the two heterogeneous palladium-based catalysts strongly promote the formation of menthol through the cyclization of citronellal, in some cases achieving nearly complete selectivity.
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