The photolysis of sulfonyl azides in isopropyl alcohol

Reagan, Morris T.; Nickon, Alex

doi:10.1021/ja01017a032

Cited by 51 publications

(27 citation statements)

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“…Both fixation mechanisms would lead to the formation of a sulphonamide bridging unit between the dye and the nylon substrate. D-SO2 -Nj + H, N-Nylon + D-S02 -NH-Nylon + N3- (6) As nylon substrates are known to contain varying amounts of peroxides, one possible route for furation at low temperatures could involve free-radical decomposition of the azide group, where the peroxide species act as radical initiators [6]. This possibility was ruled out by examining the efficiency of dye-substrate grafting when the substrate was dyed in the presence and absence of an efficient peroxide radical scavenger.…”

Section: Results and Discussion F I E H I N A R Y Observationsmentioning

confidence: 99%

Azide Reactive Dyes

Griffiths¹,

McDARMAID²

1977

Journal of the Society of Dyers and Colourists

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Reactive dyes containing a sulphonylazide group can undergo fixation on nylon substrates by two different mechanisms. Under aqueous dyeing conditions, at or below 120d̀ C, the free amino end‐groups of the polymer attack the sulphonylazide group with displacement of azide ion, and results in attachment of the dye to the substrate by a sulphonamide linkage. In contrast, if the dyed substrate is subjected to dry heat fixation at 170d̀ C, the azide group decomposes to a sulphonylnitrene species which undergoes insertion into C‐H bonds of the polymer. The dye is again attached by a sulphonamide bridge, but in this case the amount of dye that can be fixed is independent of the amino end‐group content of the polymer.

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Section: Results and Discussion F I E H I N A R Y Observationsmentioning

confidence: 99%

Azide Reactive Dyes

Griffiths¹,

McDARMAID²

1977

Journal of the Society of Dyers and Colourists

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“…By using substrates containing terminal alkynes, tetrahydrofurans 10 a-10 c containinge xocyclic alkenylsulfones were produced in 66-88 % yield (entries [11][12][13]. Replacement of the ether tetherw ith a sulfonamidel ed to variousa zacycles 8k, 10 d,a nd 10 e (entries [14][15][16].…”

Section: Azidosulfonylative Cyclizationsmentioning

confidence: 99%

“…[4d] The formation of a sulfonyl nitrenef rom UV irradiationo fasulfonyl azide with benzophenonea satriplet sensitizer is also known. [14] Furthermore, other electron-deficient azides such as acyl azides and azidoformates are knownt op roduce nitrenes by triplet sensitization with photoactive metal complexes. [4b-d,f] The triplet nitrene 21 could then abstract ah ydrogen atom from THF to give tetrahydrofuran-2-yl radical 15 and sulfonamidylr adical 22.I nr elevant precedent, it is known that triplet sulfonyl nitrenes can abstract ah ydrogen atom from the methine carbon of i-PrOH.…”

Section: The Role Of Thf In Radical Initiationmentioning

confidence: 99%

“…[4b-d,f] The triplet nitrene 21 could then abstract ah ydrogen atom from THF to give tetrahydrofuran-2-yl radical 15 and sulfonamidylr adical 22.I nr elevant precedent, it is known that triplet sulfonyl nitrenes can abstract ah ydrogen atom from the methine carbon of i-PrOH. [14] Azidation of 15 with the sulfonyl azide would then provide the sulfonyl radical 12 to enter the chain mechanisms shown in Schemes 2a nd 3. The sulfonamidyl radical 22 could then undergo as econd hydrogen abstraction with THF to give para-toluenesulfonamide (23).…”

Section: The Role Of Thf In Radical Initiationmentioning

confidence: 99%

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Sulfonylative and Azidosulfonylative Cyclizations by Visible‐Light‐Photosensitization of Sulfonyl Azides in THF

Zhu

Pathigoolla

Lowe

et al. 2017

Chemistry A European J

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The generation of sulfonyl radicals from sulfonyl azides using visible light and a photoactive iridium complex in THF is described. This process was used to promote sulfonylative and azidosulfonylative cyclizations of enynes to give several classes of highly functionalized heterocycles. The use of THF as the solvent is critical for successful reactions. The proposed mechanism of radical initiation involves the photosensitized formation of a triplet sulfonyl nitrene, which abstracts a hydrogen atom from THF to give a tetrahydrofuran‐2‐yl radical, which then reacts with the sulfonyl azide to generate the sulfonyl radical.

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“…86 Similar results are obtained by using a radical initiator. 88 The triazenyl radical intermediate undergo a 1,5 -hydrogen transfer coupled to the loss of nitrogen and formation of acetone.…”

Section: Photo -And Electrochemical Reductions Of Organic Azides To Amentioning

confidence: 99%

Radical Chemistry with Azides

Jimeno

Renaud

2009

Organic Azides

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Organic azides represent a very interesting class of compounds since they are precursor of a wide range of nitrogen containing organic molecules. 1 Moreover, they possess a unique reactivity pattern orthogonal to many other organic functional groups. This assessment is also true in the fi eld of radical chemistry. For instance, azides can be considered as protected amino groups that are perfectly tolerated in C -C bond forming reactions. This is illustrated by the synthesis of ( − ) -batzelladine D recently disclosed by P.A. Evans. 2 In this synthesis, a pyrrolo[1,2f]pyrimidine is built via a 5exo trig radical cyclization. The two azido substituents present in the molecule are not reduced under the reaction conditions used to run the cyclization (tributyltin hydride and triethylborane in the presence of air at room temperature) (Scheme 8.1 ).The stability of azides in radical reactions is further illustrated by the radical fragmentation of carbohydrate anomeric alkoxyl radicals bearing an azido substituent at position 3 reported by Suarez (Scheme 8.2 ). 3,4 After fragmentation, the 2 -azido -substituted radical is iodinated and no β -fragmentation of the azide is observed.However, under suitable conditions, azides react with a variety of radicals and this is the basis of several useful synthetic procedures for the formation of carbon -nitrogen bonds. For instance, synthesis of azides by radical addition of an azidyl radical to alkenes (Scheme 8.3 a) and by reaction of an alkyl radical with an azidating reagent (Scheme 8.3 b) will be presented. The reduction of azides leading to aminyl radicals (Scheme 8.3 c) and the addition of alkyl radicals to alkyl azides (Scheme 8.3 d) will also be discussed.

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The photolysis of sulfonyl azides in isopropyl alcohol

Cited by 51 publications

References 0 publications

Azide Reactive Dyes

Azide Reactive Dyes

Sulfonylative and Azidosulfonylative Cyclizations by Visible‐Light‐Photosensitization of Sulfonyl Azides in THF

Radical Chemistry with Azides

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