The facile synthesis and application of a polyisobutylene--polymer--tagged, iridium(III) photocatalyst is described. The catalytic performance of this complex remains consistently high, while the installed tether allows for its convenient separation from reaction products through a thermomorphic solvent system. Excellent recycling properties were observed both in batch and in flow reactions, and especially in the latter the continuous, automatic recovery and reuse of the catalyst either from a mono-- or a biphasic reaction solution is realized for the first time, making this approach attractive for large--scale applications.
Scheme 3Continuously operating, catalyst recycling, photoreaction setup.
Please do not adjust marginsPlease do not adjust margins iridium compared to the batch process. Catalyst 3 therefore provides an alternative to fac--Ir(ppy) 3 when large--scale reaction setups are required.
SummaryCarbon–oxygen single bonds are ubiquitous in natural products whereas efficient methods for their reductive defunctionalization are rare. In this work an environmentally benign protocol for the activation of carbon–oxygen single bonds of alcohols towards a reductive bond cleavage under visible light photocatalysis was developed. Alcohols were activated as 3,5-bis(trifluoromethyl)-substituted benzoates and irradiation with blue light in the presence of [Ir(ppy)2(dtb-bpy)](PF6) as visible light photocatalyst and Hünig’s base as sacrificial electron donor in an acetonitrile/water mixture generally gave good to excellent yields of the desired defunctionalized compounds. Functional group tolerance is high but the protocol developed is limited to benzylic, α-carbonyl, and α-cyanoalcohols; with other alcohols a slow partial C–F bond reduction in the 3,5-bis(trifluoromethyl)benzoate moiety occurs.
Showcasing the concept of light-induced homo¬lysis for the generation of radicals, the CuII-photocatalyzed decarboxylative oxygenation of carboxylic acids with molecular oxygen as the terminal oxidant is described. Two CuII-carboxylate complexes...
Racemic 4-hydroxycyclopentenone, readily derived from furfuryl alcohol, can be transformed via its O-Boc derivative to 4-acyloxy, 4-aryloxy-, 4-amino-, or 4-thio-substituted cyclopentenones with high enantioselectivity by palladium-catalyzed kinetic resolution via nucleophilic allylic substitutions. Applying this methodology, a short formal synthesis of ent-noraristeromycin was readily accomplished.
A visible-light-mediated radical
tandem cyclization of ortho-isocyano-α-bromo
cinnamates to 2-substituted
indole-3-glyoxylates is achieved by formation of both C–C/C–S
and C–O bonds. The reaction proceeds through a hitherto unprecedented
bromine- or methoxy-group-promoted umpolung back electron transfer
from an α-carbonyl radical to the photocatalyst. This method
allows preparation of diverse 2-arylated or 2-thioarylated indole-3-glyoxylates.
The glyoxylate group installed in the products can be utilized for
several biologically relevant manipulations.
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