Taming hazardous chemistry by continuous flow technology

Over the last two decades, flow technologies have become increasingly popular in the field of organic chemistry, offering solutions for engineering and/or chemical problems. Flow reactors enhance the mass and heat transfer, resulting in rapid reaction mixing, and enable a precise control over the re...

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Bibliographic Details
Published in:	Chemical Society reviews Vol. 45; no. 18; p. 4892
Main Authors:	Movsisyan, M, Delbeke, E I P, Berton, J K E T, Battilocchio, C, Ley, S V, Stevens, C V
Format:	Journal Article
Language:	English
Published:	England 21.09.2016
ISSN:	1460-4744, 1460-4744
Online Access:	Get more information
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Abstract	Over the last two decades, flow technologies have become increasingly popular in the field of organic chemistry, offering solutions for engineering and/or chemical problems. Flow reactors enhance the mass and heat transfer, resulting in rapid reaction mixing, and enable a precise control over the reaction parameters, increasing the overall process selectivity, efficiency and safety. These features allow chemists to tackle unexploited challenges in their work, with the ultimate objective making chemistry more accessible for laboratory and industrial applications, avoiding the need to store and handle toxic, reactive and explosive reagents. This review covers some of the latest and most relevant developments in the field of continuous flow chemistry with the focus on hazardous reactions.
AbstractList	Over the last two decades, flow technologies have become increasingly popular in the field of organic chemistry, offering solutions for engineering and/or chemical problems. Flow reactors enhance the mass and heat transfer, resulting in rapid reaction mixing, and enable a precise control over the reaction parameters, increasing the overall process selectivity, efficiency and safety. These features allow chemists to tackle unexploited challenges in their work, with the ultimate objective making chemistry more accessible for laboratory and industrial applications, avoiding the need to store and handle toxic, reactive and explosive reagents. This review covers some of the latest and most relevant developments in the field of continuous flow chemistry with the focus on hazardous reactions.Over the last two decades, flow technologies have become increasingly popular in the field of organic chemistry, offering solutions for engineering and/or chemical problems. Flow reactors enhance the mass and heat transfer, resulting in rapid reaction mixing, and enable a precise control over the reaction parameters, increasing the overall process selectivity, efficiency and safety. These features allow chemists to tackle unexploited challenges in their work, with the ultimate objective making chemistry more accessible for laboratory and industrial applications, avoiding the need to store and handle toxic, reactive and explosive reagents. This review covers some of the latest and most relevant developments in the field of continuous flow chemistry with the focus on hazardous reactions. Over the last two decades, flow technologies have become increasingly popular in the field of organic chemistry, offering solutions for engineering and/or chemical problems. Flow reactors enhance the mass and heat transfer, resulting in rapid reaction mixing, and enable a precise control over the reaction parameters, increasing the overall process selectivity, efficiency and safety. These features allow chemists to tackle unexploited challenges in their work, with the ultimate objective making chemistry more accessible for laboratory and industrial applications, avoiding the need to store and handle toxic, reactive and explosive reagents. This review covers some of the latest and most relevant developments in the field of continuous flow chemistry with the focus on hazardous reactions.
Author	Movsisyan, M Ley, S V Battilocchio, C Berton, J K E T Stevens, C V Delbeke, E I P
Author_xml	– sequence: 1 givenname: M surname: Movsisyan fullname: Movsisyan, M email: Chris.Stevens@UGent.be organization: SynBioC, Department of Sustainable Organic Chemistry and Technology, Ghent University, Coupure Links 653, 9000 Ghent, Belgium. Chris.Stevens@UGent.be – sequence: 2 givenname: E I P surname: Delbeke fullname: Delbeke, E I P – sequence: 3 givenname: J K E T surname: Berton fullname: Berton, J K E T – sequence: 4 givenname: C surname: Battilocchio fullname: Battilocchio, C – sequence: 5 givenname: S V surname: Ley fullname: Ley, S V – sequence: 6 givenname: C V surname: Stevens fullname: Stevens, C V
BackLink	https://www.ncbi.nlm.nih.gov/pubmed/27453961$$D View this record in MEDLINE/PubMed
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Snippet	Over the last two decades, flow technologies have become increasingly popular in the field of organic chemistry, offering solutions for engineering and/or...
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