Catalytic Carbocation Generation Enabled by the Mesolytic Cleavage of Alkoxyamine Radical Cations

There is no author summary for this article yet. Authors can add summaries to their articles on ScienceOpen to make them more accessible to a non-specialist audience.

Abstract

<p class="first" id="P1">We describe a new catalytic method for accessing carbocation intermediates via the mesolytic cleavage of alkoxyamine radical cations. In this process, electron transfer between an excited state oxidant and a TEMPO-derived alkoxyamine substrate gives rise to a radical cation with a remarkably weak C-O bond. Spontaneous scission results in the formation of the stable nitroxyl radical TEMPO• as well as a reactive carbocation intermediate that can be intercepted by a wide range of nucleophiles. Notably, this process occurs under neutral conditions and at comparatively mild potentials, enabling catalytic cation generation in the presence of both acid sensitive and easily oxidized nucleophilic partners. </p><p id="P12"> <div class="figure-container so-text-align-c"> <img alt="" class="figure" src="/document_file/12f4342d-098a-4ab9-83ee-1eb53ad4dd85/PubMedCentral/image/nihms827431u5.jpg"/> </div> </p>

Related collections

Most cited references 39

Record: found
Abstract: not found
Article: not found

Thermochemistry of proton-coupled electron transfer reagents and its implications.

Jeffrey Warren, Tristan Tronic, James Mayer (2010)

0 comments Cited 264 times – based on 0 reviews      Review now

Bookmark

Record: found
Abstract: not found
Article: not found

Asymmetric Ion-Pairing Catalysis

Katrien Brak, Eric Jacobsen (2013)

0 comments Cited 202 times – based on 0 reviews      Review now

Bookmark

Record: found
Abstract: found
Article: not found

The progression of chiral anions from concepts to applications in asymmetric catalysis.

Robert J Phipps, Gregory Hamilton, F Dean Toste (2012)

Despite the tremendous advances of the past four decades, chemists are far from being able to use chiral catalysts to control the stereoselectivity of any desired reaction. New concepts for the construction and mode of operation of chiral catalysts have the potential to open up previously inaccessible reaction space. The recognition and categorization of distinct approaches seems to play a role in triggering rapid exploration of new territory. This Review both reflects on the origins as well as details a selection of the latest examples of an area that has advanced considerably within the past five years or so: the use of chiral anions in asymmetric catalysis. Defining reactions as involving chiral anions is a difficult task owing to uncertainties over the exact catalytic mechanisms. Nevertheless, we attempt to provide an overview of the breadth of reactions that could reasonably fall under this umbrella.