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Abstract
The synthesis of citronellal, an added-value chemical for perfumery, was carried out by selective and green hydrogenation of citral into citronellal in water.
Aqueous suspensions of spherical ammonium-capped palladium nanoparticles with sizes around 3nm selectively reduced the conjugated carbon-carbon
double bond. An excellent selectivity of 95% in citronellal was achieved at complete conversion under mild reaction conditions on a realistic 2 g scale in water.
The presence of potassium hydroxide proved crucial to control the selectivity and avoid other hydrogenation co-products. These optimized results were
further extended to a 135 g substrate loading with a relevant turnover number (TON) of 10 000.
Supplementary materials
Title
Supporting information - Kinetics & NMR
Description
The supporting information shows kinetic curves and NMR data of product and co-products.
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