Michaël Parmentier scite author profile

Previous studies have shown that aqueous solutions of designer surfactants enable a wide variety of valuable transformations in synthetic organic chemistry. Since reactions take place within the inner hydrophobic cores of these tailor-made nanoreactors, and products made therein are in dynamic exchange between micelles through the water, opportunities exist to use enzymes to effect secondary processes. Herein we report that ketone-containing products, formed via initial transition metal-catalyzed reactions based on Pd, Cu, Rh, Fe and Au, can be followed in the same pot by enzymatic reductions mediated by alcohol dehydrogenases. Most noteworthy is the finding that nanomicelles present in the water appear to function not only as a medium for both chemo- and bio-catalysis, but as a reservoir for substrates, products, and catalysts, decreasing noncompetitive enzyme inhibition.

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Surfactant technology applied toward an active pharmaceutical ingredient: more than a simple green chemistry advance

Gallou

et al. 2016

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Effects of Co-solvents on Reactions Run under Micellar Catalysis Conditions

et al. 2016

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The impact of varying percentages of an organic solvent added to reactions run in aqueous nanomicelles as the reaction medium has been investigated. Issues such as rates of reaction, percent conversion, and yield, as well as various practical aspects (e.g., effect on stirring, etc.), are discussed, leading to an operationally simple method for the general improvement of potentially problematic systems across a broad range of reaction types, in particular for reactions run at scale.

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Strategies to Tackle the Waste Water from α-Tocopherol-Derived Surfactant Chemistry

Krell

Schreiber

Hueber

et al. 2021

Org. Process Res. Dev.

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The implications of the use of surfactant TPGS-750-M in water as a micellar reaction medium on the concomitant aqueous waste streams and their sustainable disposal have been studied. Biodegradability, log P ow, solubility, and German water hazard class of the surfactant have been determined and enabled establishment of a waste water concept, which builds on the lipophilicity and ester group lability of the molecule. The presented data and examples suggest preferred ways for designing surfactant processes and their aqueous waste streams in a sustainable manner.

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Stereoselective Rhodium-Catalyzed Amination of Alkenes

et al. 2011

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The first stereoselective rhodium-catalyzed intermolecular aziridination and C-H amination of alkenes to produce chiral carbamate-protected aziridines and allylic amines is described. Good yields and diastereoselectivities were achieved using a readily available chiral N-tosyloxycarbamate and stoichiometric amount of the alkene substrate. Furthermore the protecting group is easy to cleave under mild reaction conditions.

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