Pathways in the Degradation of Geminal Diazides

Holzschneider, Kristina; Häring, Andreas P.; Haack, Alexander; Corey, Daniel J.; Benter, Thorsten; Kirsch, Stefan F.

doi:10.1021/acs.joc.7b01019

Cited by 24 publications

(19 citation statements)

References 63 publications

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“…A similar formation of a nitrile species was recently observed by us in the ring‐opening of 3,3‐diazidooxindoles under basic conditions . In the related fragmentation of diazidated 1,3‐dicarbonyls, we also proposed the existence of nitrile intermediates (i.e., cyanoformates), mainly based on calculations, although the reaction conditions did not allow for the isolation of the nitriles in those cases.…”

Section: Resultssupporting

confidence: 69%

“…We also present our results on the fragmentation of the diazides 6 when treated with amines: Besides the expected amides 7 , we isolated aromatic nitriles 8 in good yields. Since the existence of nitrile intermediates in the course of the fragmentation of diazido compounds was mostly a postulate by us in previous reports, primarily based on calculations, the current study provides experimental support for our mechanistic view on the amine‐triggered fragmentation of diazides.…”

Section: Introductionsupporting

confidence: 68%

“…Our previous studies with 2,2‐diazido carbonyl systems have demonstrated how the neighboring diazido group is capable to ease the amine addition, and thus the carbonyl group may be considered as being highly activated in those systems. [10f], [11a], , From a mechanistic point of view, we assume that the present fragmentation starts with the nucleophilic attack of the amine onto the carbonyl group of diazide A , as outlined in Scheme . Upon addition‐elimination, a diazido leaving group B (or its deprotonated form) may be generated that undergoes further degradation through loss of both dinitrogen and an azide anion under basic conditions.…”

Section: Resultsmentioning

confidence: 99%

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2,2‐Diazido‐1,2‐diarylethanones: Synthesis and Reactivity with Primary Amines

2019

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We describe the synthesis and reactivity of a new class of diazidated compounds: the 2,2‐diazido‐1,2‐diarylethanones. The diazides are easily accessible from 1,2‐diarylethanones through a mild and simple protocol for the direct oxidative diazidation, using iodine and sodium azide in DMSO at room temperature. In studies towards their reactivity with amine nucleophiles under basic conditions, the diazides are shown to undergo a controlled fragmentation reaction that provides a straightforward access to the corresponding amides. In stark contrast to our previous results on the amine‐triggered fragmentation of diazidated compounds, aromatic nitriles are found to be by‐products of synthetic value. The net reaction consisting of diazidation and subsequent fragmentation, thus, provides a simple way to convert 1,2‐diarylethanones into both aromatic amides and nitriles.

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Section: Resultssupporting

confidence: 69%

Section: Introductionsupporting

confidence: 68%

Section: Resultsmentioning

confidence: 99%

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2,2‐Diazido‐1,2‐diarylethanones: Synthesis and Reactivity with Primary Amines

2019

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“…[10] During ouro ngoing studieso nt he synthesis [11] andr eactivity [12] of compoundsw ithg eminal diazidou nits,w eo bserved that tetrazolef ormationc an be easilyt riggered with this still barely knownc ompoundc lass: [13,14] Diazidoe sters( e.g., 1)w ere smoothly convertedi ntot he correspondingt etrazolest hrough simple treatment with triethylaminea sb asea dditive (Scheme2A). [15] We then questioned whetherau niversal approach to thetetrazole core maye xist,startingfromgeminal diazides ubstrates, andd eliberatelyd ifferent from thec lassical cycloadditionw ithn itrilesa nd azides.I ndeed, ourl iteratures earch revealed that afew examples forthe conversion of diazidocompounds into tetrazolesw erer eported: Fore xample,t he thermal decompositiono fd iazidodiphenylmethane 3 into tetrazole 4 wass hown in 1909 by Schroeter, andl ater confirmedb yG çtzky (Scheme2B). [16] Subsequent studieso nt he thermolysiso fg eminald iazidesb yMoriarty andc o-workersd escribed tetrazolef ormation with af ew diazidomalonic acid derivatives.…”

Section: Introductionmentioning

confidence: 99%

“…During our ongoing studies on the synthesis and reactivity of compounds with geminal diazido units, we observed that tetrazole formation can be easily triggered with this still barely known compound class: Diazido esters (e.g., 1 ) were smoothly converted into the corresponding tetrazoles through simple treatment with triethylamine as base additive (Scheme A) . We then questioned whether a universal approach to the tetrazole core may exist, starting from geminal diazide substrates, and deliberately different from the classical cycloaddition with nitriles and azides.…”

Section: Introductionmentioning

confidence: 99%

A Synthetic Route Toward Tetrazoles: The Thermolysis of Geminal Diazides

Holzschneider

Tong

Mohr

et al. 2019

Chemistry A European J

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A new synthetic route toward the tetrazole core is described, which is based on a general fragmentation pattern that was found in a range of compounds featuring geminal diazido units. Through a simple two‐step procedure, the synthesis of structurally diverse target compounds containing a tetrazole, such as tetrazoloquinoxalinones, benzoylaryltetrazoles, tetrazolotriazinones, and tetrazoloazepinones, was easily accomplished, starting from broadly accessible substrates (i.e., oxindoles, diarylethanones, pyrazolones, and phenanthrols). The initial oxidative diazidation reaction with iodine and sodium azide under mild conditions is followed by the thermal fragmentation under microwave irradiation, leading to the tetrazole products. Noteworthy, an experimental solution is presented in which the potentially hazardous diazide intermediates are not isolated and the concentration of crude reaction mixtures containing diazides is not required to achieve the tetrazoles in good yields.

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(Diacetoxyiodo)benzene‐mediated Selective Synthesis of α‐Azido Ketones or Acyl Azides from β‐Keto Acids

Zheng

et al. 2018

Asian J Org Chem

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Abstract(Diacetoxyiodo)benzene‐mediated selective synthesis of α‐azido ketones or acyl azides from keto acids is developed. The selectivity depends on the amounts of the reagents used. Treatment of β‐keto acid derivatives with 1.2 or 2.2 equivalents of (diacetoxyiodo)benzene results in α‐azido ketone or acyl azide products, respectively. Initial mechanistic studies show that monobromomethyl ketone and dibromomethyl ketone are plausible intermediates in these reactions.

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Pathways in the Degradation of Geminal Diazides

Cited by 24 publications

References 63 publications

2,2‐Diazido‐1,2‐diarylethanones: Synthesis and Reactivity with Primary Amines

2,2‐Diazido‐1,2‐diarylethanones: Synthesis and Reactivity with Primary Amines

A Synthetic Route Toward Tetrazoles: The Thermolysis of Geminal Diazides

(Diacetoxyiodo)benzene‐mediated Selective Synthesis of α‐Azido Ketones or Acyl Azides from β‐Keto Acids

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