Abstract
Abstract The use of enabling technologies, such as flow reactors, three-dimensional-printed devices, and electrochemistry, in the stereoselective synthesis of enantioenriched compounds is presented, with a special focus on the most significant contributions to the field reported in the last few years.
Highlights
Per Collins English dictionary, “Technology refers to methods, systems, and devices which are the result of scientific knowledge being used for practical purposes.” the application of science to develop new devices, systems, or methods is called technology
Significant progress in organic synthesis has been realized through the integration of two or more of these enabling techniques, [6] for example, by the combination of supported catalysts, alternative solvents, flow chemistry, and alternative heating techniques
Considering the numerous reviews published in the last few years in the field of continuous-flow reactions, we have decided to focus the present contribution only on the in-flow technology-assisted enantioselective synthesis and to limit the discussion especially on the most recent publications reporting the stereoselective synthesis of enantiomerically enriched compounds
Summary
Per Collins English dictionary, “Technology refers to methods, systems, and devices which are the result of scientific knowledge being used for practical purposes.” the application of science to develop new devices, systems, or methods is called technology. The application of science to develop new devices, systems, or methods is called technology. “KETs provide the basis for innovation in a range of products across all industrial sectors They underpin the shift to a greener economy, are instrumental in modernizing Europe’s industrial base, and drive the development of. Significant progress in organic synthesis has been realized through the integration of two or more of these enabling techniques, [6] for example, by the combination of supported catalysts, alternative solvents, flow chemistry (new reactors design), and alternative heating techniques (including microwave-assisted synthesis). Considering the numerous reviews published in the last few years in the field of continuous-flow reactions, we have decided to focus the present contribution only on the in-flow technology-assisted enantioselective synthesis and to limit the discussion especially on the most recent publications reporting the stereoselective synthesis of enantiomerically enriched compounds. The use of heterogenized catalysts and catalytic reactors, immobilized enzymes, and continuous-flow biocatalysis is not included in the present contribution
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