2012
DOI: 10.1002/cctc.201200778
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Flow Chemistry Syntheses of Styrenes, Unsymmetrical Stilbenes and Branched Aldehydes

Abstract: 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. … Show more

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Cited by 68 publications
(31 citation statements)
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“…The latter sensibly improved selectivity at quantitative conversion [36]. Styrenes were also synthesized in flow by the same group from different aryl iodides and ethylene [37], as well as unsymmetrical stylbenes [38]. A tube-in-tube reactor configuration was proposed, allowing gas permeation from the shell to the inner pipe, where the liquid reactants are 6 flowing.…”
Section: Methodsmentioning
confidence: 99%
“…The latter sensibly improved selectivity at quantitative conversion [36]. Styrenes were also synthesized in flow by the same group from different aryl iodides and ethylene [37], as well as unsymmetrical stylbenes [38]. A tube-in-tube reactor configuration was proposed, allowing gas permeation from the shell to the inner pipe, where the liquid reactants are 6 flowing.…”
Section: Methodsmentioning
confidence: 99%
“…Ley reported a fast, safe, and practical approach for the preparation of functionalized styrenes 55 via a MizorokiHeck-type cross-coupling of aryl iodides and ethylene gas (Scheme 48) [71]. The safety concerns, regarding the use of pressurized ethylene gas, were faced by employing the continuous-flow tube-in-tube gas-liquid reactor equipped with a semipermeable membrane to administer the gas in a controlled manner.…”
Section: Scheme 38mentioning
confidence: 99%
“…However, the gas-liquid flow reactor can safely and easily allow for higher overall pressure, which eases material handling and in-line optimization [14]. Ley recently developed a continuous-flow hydroformylation process facilitated by a tube-in-tube gas-liquid reactor, which is based on the semipermeable polymer Teflon AF-2400 [15,16]. Similar to typical batch hydroformylation that employs homogeneous Rh catalyst, styrene derivatives were dissolved in an organic solvent that also contains Rh(CO) 2 (acac) and the ligand Ph 3 P. Reaction of all styrene-type substrates could be completed in 58 min with isolated yields of branched aldehyde from 69% to 94% (conditions: CO/H 2 = 1:1, 25 bar, 65°C, MeOH/PhCH 3 = 1:1).…”
Section: Single-phase Homogeneous Systemmentioning
confidence: 99%