15N Chemical Shifts and JNN-Couplings as Diagnostic Tools for Determination of the Azide–Tetrazole Equilibrium in Tetrazoloazines

Деев, С. Л.; Шестакова, Т. С.; Шенкарев, Захар О.; Paramonov, Alexander S.; Khalymbadzha, Igor A.; Eltsov, Oleg S.; Charushin, Valery N.; Чупахин, О. Н.

doi:10.1021/acs.joc.1c02225

Cited by 5 publications

(20 citation statements)

References 58 publications

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“…Neither the azido or the N4-tetrazolo isomers were observed in the solid state or in solution for compounds 2-4. The observed regiochemistry of azide / tetrazolo tautomerization has been documented previously and is preferred thermodynamically over the N4-tetrazolo isomer [10]. Several attempts were made to cyclize 4 to its 1-hydroxytetrazole isomer 5 by screening numerous acids, solvents, and temperatures, however no product was observed.…”

Section: Synthesismentioning

confidence: 52%

Synthesis of a New 1,2,4‐Triazine Derived Azidoxime

Cleveland

Imler

Snyder

et al. 2022

Propellants Explo Pyrotec

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A 1,2,4-triazine based azidoxime was formed via the substitution of a chloroxime (3) with sodium azide in ethanol. This compound was characterized via single-crystal X-ray diffraction. This material has a calculated density of 1.746 g • cm À 3 and is less sensitive to impact, spark, and fric-tion, as compared to PETN and RDX. The dehydrated material has a calculated density of 1.823 g • cm À 3 and the detonation pressure and velocity of 4 are calculated to be 29.1 GPa and 8.67 km • s À 1 , respectively.

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Section: Synthesismentioning

confidence: 52%

Synthesis of a New 1,2,4‐Triazine Derived Azidoxime

Cleveland

Imler

Snyder

et al. 2022

Propellants Explo Pyrotec

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“…1 H and 13 C NMR spectra were recorded on a Bruker Avance 500 spectrometer (Bruker BioSpin GmbH, Rheinstetten, Germany). Chemical shifts (δ) were reported in ppm and coupling constants (J) in Hz.…”

Section: General Informationmentioning

confidence: 99%

“…From the synthesis perspective, heterocycles with an azido-azomethine structural entity are interesting due to their intrinsic dynamic azide-tetrazole tautomeric equilibrium in the solution phase (Figure 1a) [8][9][10][11][12][13][14][15] alongside rich azide functional group chemistry [16].…”

Section: Introductionmentioning

confidence: 99%

SnAr Reactions of 2,4-Diazidopyrido[3,2-d]pyrimidine and Azide-Tetrazole Equilibrium Studies of the Obtained 5-Substituted Tetrazolo[1,5-a]pyrido[2,3-e]pyrimidines

et al. 2022

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A straightforward method for the synthesis of 5-substituted tetrazolo[1,5-a]pyrido[2,3-e]pyrimidines from 2,4-diazidopyrido[3,2-d]pyrimidine in SNAr reactions with N-, O-, and S- nucleophiles has been developed. The various N- and S-substituted products were obtained with yields from 47% to 98%, but the substitution with O-nucleophiles gave lower yields (20–32%). Furthermore, the fused tetrazolo[1,5-a]pyrimidine derivatives can be regarded as 2-azidopyrimidines and functionalized in copper(I)-catalyzed azide-alkyne dipolar cycloaddition (CuAAC) and Staudinger reactions due to the presence of a sufficient concentration of the reactive azide tautomer in solution. In total, seven products were fully characterized by their single crystal X-ray studies, while five of them were representatives of the tetrazolo[1,5-a]pyrido[2,3-e]pyrimidine heterocyclic system. Equilibrium constants and thermodynamic values were determined using variable temperature 1H NMR and are in agreement of favoring the tetrazole tautomeric form (ΔG298 = −3.33 to −7.52 (kJ/mol), ΔH = −19.92 to −48.02 (kJ/mol) and ΔS = −43.74 to −143.27 (J/mol·K)). The key starting material 2,4-diazidopyrido[3,2-d]pyrimidine presents a high degree of tautomerization in different solvents.

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“…Ligand L displays substrate‐preorganization features since the zinc‐porphyrin site serves for molecular recognition of nitrogen‐containing substrates whereas the triazolopyridine fragment is able to coordinate by chelation catalytically active iridium sites leading to excellent levels of meta ‐selectivity when applied in iridium‐catalyzed C−H bond borylation reactions [22,23] . However, the access to 2‐azidopyridine derivative reagents is not trivial due to tautomerism and many functional groups are not tolerated during the synthesis process starting from 2‐bromopyridine derivatives [24–43] . Consequently, and in view to obtain supramolecular ligands featuring different substitution patterns in the triazolopyridine site, we envisioned an alternative route that also involves copper‐catalyzed click chemistry, but this time, relying on the treatment of 1 with tosyl azide and further stoichiometric reaction with pyridine N ‐oxides ( Scheme 1, bottom) [44–46] .…”

Section: Introductionmentioning

confidence: 99%

“…[22,23] How-ever, the access to 2-azidopyridine derivative reagents is not trivial due to tautomerism and many functional groups are not tolerated during the synthesis process starting from 2-bromopyridine derivatives. [24][25][26][27][28][29][30][31][32][33][34][35][36][37][38][39][40][41][42][43] Consequently, and in view to obtain supramolecular ligands featuring different substitution patterns in the triazolopyridine site, we envisioned an alternative route that also involves copper-catalyzed click chemistry, but this time, relying on the treatment of 1 with tosyl azide and further stoichiometric reaction with pyridine N-oxides (Scheme 1, bottom). [44][45][46] However, as it is herein presented, the copper-catalyzed click reaction involving the alkyne zinc-porphyrin 1 with tosyl azide did not afford the expected compound 1' but delivered products resulting from nucleophile addition such as sulfonyl imidates or sulfonyl amides (2).…”

Section: Introductionmentioning

confidence: 99%

Destabilizing Predictive Copper‐Catalyzed Click Reactions by Remote Interactions with a Zinc‐Porphyrin Backbone

Trouvé

Gramage‐Doria

2023

Helvetica Chimica Acta

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In order to obtain new supramolecular ligands that build up around a zinc‐porphyrin scaffold, we envisioned to access sulfonyl triazole intermediates by well‐known copper‐catalyzed click reactions. Unexpectedly, these triazole intermediates do not form due to the presence of the zinc‐porphyrin moiety at close proximity of the active copper species. Indeed, the copper catalyst undergoes a different chemo‐selective reaction pathway reacting with traces of alcohols or water from the media that behave as effective nucleophiles leading to sulfonyl imidates or sulfonyl amides covalently connected to the zinc‐porphyrin. We show that copper‐catalyzed click reactions can follow different reaction mechanisms when the catalytic events occur at close proximity of a zinc‐porphyrin unit which likely acts as a Lewis acid to stabilize otherwise inaccessible reaction intermediates.

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¹⁵N Chemical Shifts and J_NN-Couplings as Diagnostic Tools for Determination of the Azide–Tetrazole Equilibrium in Tetrazoloazines

Cited by 5 publications

References 58 publications

Synthesis of a New 1,2,4‐Triazine Derived Azidoxime

Synthesis of a New 1,2,4‐Triazine Derived Azidoxime

SnAr Reactions of 2,4-Diazidopyrido[3,2-d]pyrimidine and Azide-Tetrazole Equilibrium Studies of the Obtained 5-Substituted Tetrazolo[1,5-a]pyrido[2,3-e]pyrimidines

Destabilizing Predictive Copper‐Catalyzed Click Reactions by Remote Interactions with a Zinc‐Porphyrin Backbone

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