Visible‐Light Sensitization of Vinyl Azides by Transition‐Metal Photocatalysis

Farney, Elliot P.; Yoon, Tehshik P.

doi:10.1002/anie.201308820

Cited by 213 publications

(114 citation statements)

References 42 publications

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“…Our laboratory previously studied the use of visible light absorbing transition metal complexes to sensitize vinyl azides towards intramolecular heterocyclic ring-closing reactions (Scheme 1). 11 Quite recently, König and coworkers reported an intriguing method for photocatalytic amidation of electron-rich heterocycles, the key step of which was proposed to involve triplet sensitization of a benzoyl azide. 12 To the best of our knowledge, however, the use of triplet sensitizers to promote chemoselective intermolecular alkene aziridination reactions has not previously been described.…”

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Spin‐Selective Generation of Triplet Nitrenes: Olefin Aziridination through Visible‐Light Photosensitization of Azidoformates

et al. 2016

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Azidoformates are interesting potential nitrene precursors, but their direct photochemical activation can result in competitive formation of aziridination and allylic amination products. Here, we show that visible light activated transition metal complexes can be triplet sensitizers that selectively produce aziridines via the spin-selective photogeneration of triplet nitrenes from azidoformates. This approach enables the aziridination of a wide range of alkenes and the formal oxyamination of enol ethers using the alkene as the limiting reagent. Preparative scale aziridinations can be easily achieved in flow.

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“…14 Finally, we computationally estimated the lowest-energy triplet excited state of ethyl azidoformate to be ~54 kcal/mol, 15 thermodynamically within a range accessible by the Ir complexes we have previously exploited as energy transfer photocatalysts. 11,16 …”

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Spin‐Selective Generation of Triplet Nitrenes: Olefin Aziridination through Visible‐Light Photosensitization of Azidoformates

et al. 2016

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“…In addition, PRC for azidyl radical addition [7] has yet to be investigated, and would represent av ersatile and mild approach to valuable organic azides.P RC applications of azides to date have involved nitrene generation from vinyl or aryl azides. [8] A single report from Masson, Magnier,a nd co-workers [9] describes the trifluoromethyl azidation of double bonds using an azide anion introduced from TMSN 3 .…”

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Three‐Component Azidation of Styrene‐Type Double Bonds: Light‐Switchable Behavior of a Copper Photoredox Catalyst

et al. 2015

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[Cu(dap) 2 ]Cl effectively catalyzes azide addition from the Zhdankin reagent to styrene-type double bonds,a nd subsequent addition of at hird component to the benzylic position. In the presence of light, ap hotoredoxc ycle is implicated with polar components such as methanol or bromide adding to ab enzylic cation. In the absence of light, by contrast, double azidation takes place to give diazides. Therefore,r egioselective double functionalization can be achieved in good to excellent yields,w ith as witch between light and dark controlling the degree of azidation.

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“…18 Important recent studies from Yoon and co-workers demonstrated that photolytic conversion of dienyl azides 39 into reactive nitrenes 40 , with visible light in the presence of a Ru photocatalyst was an attractive approach to the construction of pyrroles 41 (Scheme 7). 19 The use of low-energy visible light precludes competitive photodecomposition processes typically associated with UV irradiation, and makes this approach more attractive and useful.…”

Section: Thermal- or Photo-induced Reactions Of Vinyl Azidesmentioning

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Reactivities of vinyl azides and their recent applications in nitrogen heterocycle synthesis

DiMagno

2015

Org. Biomol. Chem.

177

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Nitrogen heterocycles are abundant in natural products and pharmaceuticals. An emerging interest among synthetic chemists is to apply vinyl azides as a pivotal three-atom synthon for the construction of structurally complex and diverse N-heterocyclic skeletons. The unique features of the azide group connected to an alkene moiety permit vinyl azides to function as electrophiles, nucleophiles, or radical acceptors; their access to diverse reaction pathways provides great opportunities to generate highly reactive intermediates with often unusual or unconventional reactivities. This tutorial review will systematically illustrate the reactivities of vinyl azides and describe recent breakthroughs in the development of new transformations that create N-heterocycles.

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Visible‐Light Sensitization of Vinyl Azides by Transition‐Metal Photocatalysis

Cited by 213 publications

References 42 publications

Spin‐Selective Generation of Triplet Nitrenes: Olefin Aziridination through Visible‐Light Photosensitization of Azidoformates

Spin‐Selective Generation of Triplet Nitrenes: Olefin Aziridination through Visible‐Light Photosensitization of Azidoformates

Three‐Component Azidation of Styrene‐Type Double Bonds: Light‐Switchable Behavior of a Copper Photoredox Catalyst

Reactivities of vinyl azides and their recent applications in nitrogen heterocycle synthesis

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