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Catalytic Reductive Alcohol Etherifications with Carbonyl‐Based Compounds or CO<sub>2</sub> and Related Transformations for the Synthesis of Ether Derivatives

Carles Lluna‐Galán, Luis Izquierdo‐Aranda, Rosa Adam, Jose R. Cabrero‐Antonino

2021ChemSusChem44 citationsDOIOpen Access PDF

Abstract

Abstract Ether derivatives have myriad applications in several areas of chemical industry and academia. Hence, the development of more effective and sustainable protocols for their production is highly desired. Among the different methodologies reported for ether synthesis, catalytic reductive alcohol etherifications with carbonyl‐based moieties (aldehydes/ketones and carboxylic acid derivatives) have emerged in the last years as a potential tool. These processes constitute appealing routes for the selective production of both symmetrical and asymmetrical ethers (including O‐heterocycles) with an increased molecular complexity. Likewise, ester‐to‐ether catalytic reductions and hydrogenative alcohol etherifications with CO 2 to dialkoxymethanes and other acetals, albeit in less extent, have undergone important advances, too. In this Review, an update of the recent progresses in the area of catalytic reductive alcohol etherifications using carbonyl‐based compounds and CO 2 have been described with a special focus on organic synthetic applications and catalyst design. Complementarily, recent progress made in catalytic acetal/ketal‐to‐ether or ester‐to‐ether reductions and other related transformations have been also summarized.

Topics & Concepts

CatalysisAlcoholChemistryEtherAlcohol oxidationOrganic chemistryCombinatorial chemistryCarbon dioxide utilization in catalysisAsymmetric Hydrogenation and CatalysisCatalysis for Biomass Conversion
Catalytic Reductive Alcohol Etherifications with Carbonyl‐Based Compounds or CO<sub>2</sub> and Related Transformations for the Synthesis of Ether Derivatives | Litcius