An aerobic anti-Markovnikov Wacker oxidation for the flow-synthesis of arylacetaldehydes is reported. In the process, flow chemistry techniques have provided a means to control and minimise the over-oxidation of sensitive products. The reaction showed general applicability to various functionalised styrenes and provided a process capable of a multi-gram scale.
Two tandem flow chemistry processes have been developed. A single palladium‐catalysed Heck reaction with ethylene gas provides an efficient synthesis for functionalised styrenes. Through further elaboration the catalyst becomes multi‐functional and performs a second Heck reaction providing a single continuous process for the synthesis of unsymmetrical stilbenes. In addition, the continuous, rhodium‐catalysed, hydroformylation of styrene derivatives with syngas affords branched aldehydes with good selectivity. Incorporation of an in‐line aqueous wash and liquid–liquid separation allowed for the ethylene Heck reaction to be telescoped into the hydroformylation step such that a single flow synthesis of branched aldehydes directly from aryl iodides was achieved. The tube‐in‐tube semi‐permeable membrane‐based gas reactor and liquid–liquid separator both play an essential role in enabling these telescoped flow processes.
An efficient preparation of a precursor to the neprilysin inhibitor sacubitril is described. The convergent synthesis features a diastereoselective Reformatsky-type carbethoxyallylation and a rhodium-catalyzed stereoselective hydrogenation for installation of the two key stereocenters. Moreover, by integrating machine-assisted methods with batch processes, this procedure allows a safe and rapid production of the key intermediates which are promptly transformed to the target molecule (3·HCl) over 7 steps in 54% overall yield.
A new
continuous-flow process is presented for synthesis of the
pharmaceutical intermediate norketamine (
5
). Our approach
has been to take the well-established and industrially applied batch
synthetic route to this promising antidepressant precursor and convert
it to a telescoped multi-stage continuous-flow platform. This involves
the α-bromination of a ketone, an imination/rearrangement sequence
with liquid ammonia, and a thermally induced α-iminol rearrangement.
Our approach is high yielding and provides several processing advantages
including the reduction of many of the hazards conventionally associated
with this route, particularly in the handling of liquid bromine, hydrogen
bromide gas, and liquid ammonia. Each of these presents serious operational
challenges in a batch process at scale.
We report a palladium-catalysed ethylene Heck reaction for the vinylation of aryl iodides using a tube-in-tube gas-liquid reactor. The flow process afforded various styrenes in short reaction times, employing moderate ethylene pressure.
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