A Combined High-Throughput Screening and Reaction Profiling Approach toward Development of a Tandem Catalytic Hydrogenation for the Synthesis of Salbutamol

A combined high-throughput screening and reaction profiling approach to the telescoping of two reductions in the synthesis of Salbutamol is described. Optimization studies revealed the beneficial effect of mildly acidic conditions, and the use of water as a cosolvent. Persistent formation of deoxygenated impurities using a Pd/C catalyst led to the initiation of reaction profiling studies, which revealed that the ketone intermediate formed after rapid debenzylation is the sole source of deoxygenated impurities, indicating that more rapid ketone hydrogenation should minimize this deoxygenation. A dual catalyst approach based on these insights has been developed, with both Pd/Pt and Ru/Pt catalyst systems as more selective than Pd-only systems. Based on reaction profiles that indicate the deoxygenation side reaction is first-order in the concentration of debenzylated ketone intermediate, Pt catalysts for rapid and selective ketone hydrogenation were paired with Pd and Ru catalysts known to perform selective debenzylation. Optimization of these dual catalyst processes led to conditions that were demonstrated on 20 g scale to prepare Salbutamol in 49% isolated yield after recrystallization