Syntheses of 3-(substituted)-2,4,6-triphenylverdazyls

Katritzky, Alan R.; Belyakov, S. A.; Durst, H. D.; Xu, Ruina; Dalal, Naresh S.

doi:10.1139/v94-235

Cited by 20 publications

(24 citation statements)

References 14 publications

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“…If formaldehyde is used with an equivalent amount of a secondary amine (e.g., pyrrolidine, piperidine) then 6-aminoverdazyls are produced (Scheme 7.2). 16,17 Reactions of formazans with formaldehyde under acidic conditions give cationic verdazylium salts 12, which can then be reduced to the radicals (Scheme 7.3). 15,18 -20 The verdazylium salts can be generated in situ 12,21 and reduced or they can be isolated.…”

Section: Verdazyls From Formazansmentioning

confidence: 99%

Verdazyls and Related Radicals Containing the Hydrazyl [R₂N‐NR] Group

Hicks

2010

Stable Radicals

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Section: Verdazyls From Formazansmentioning

confidence: 99%

Verdazyls and Related Radicals Containing the Hydrazyl [R₂N‐NR] Group

Hicks

2010

Stable Radicals

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“…The chemistry of these types of 1,2,3,4-tetrahydro-1,2,4,5-tetrazines is closely related (Scheme 2) [3,4,7,17]. They are all produced by path a in Scheme 1 in that the N-C bond involving the N-1 nitrogen atom and the carbon atom of the second substituent at the N-5 atom is formed during the cyclization process.…”

Section: 234-tetrahydro-1245-tetrazinesmentioning

confidence: 99%

“…Until now 5-alkylformazans 6 have only been obtained by the alkylation of formazans. Methyl iodide and alkyl bromides, and more rarely other haloalkanes or dimethyl sulfate, are most often used for these purposes [4,7,17]. As in the alkylation of representatives of other groups of hydrazones, in these cases base catalysis is required, and the reaction takes place with the participation of formazanthiones [2-4, 7, 17].…”

Section: 234-tetrahydro-1245-tetrazinesmentioning

confidence: 99%

“…The alkyl halides can have a long (up to C 15 H 31 ) or a branched chain and aryl or hetaryl substituents [2][3][4]17]. Thus, if benzyl bromide is used tetraphenylverdazyls 13 are obtained from the formazans 1, and if benzhydrol bromide is used pentaphenylverdazyl 14 is obtained (Scheme 6).…”

Section: Meimentioning

confidence: 99%

“…In place of the mixture of amine and formaldehyde it is also possible to use aminomethylal Me 2 NCH 2 NMe 2 [7]. In its place Katritzky and co-workers proposed to use 1-(dialkylaminomethyl)benzotriazoles (Btz 1 NRR 1 ) (Scheme 8) [17]. This made it possible to greatly diversify the nature of the substituents in the targeted verdazyls 23 since symmetrical and unsymmetrical dialkylamino [methylbenzylamino, methyl(2-furyl)amino, etc.]…”

Section: Meimentioning

confidence: 99%

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Formazans in the synthesis of heterocycles. II. Synthesis of azines (Review)

Бузыкин

2010

Chem Heterocycl Comp

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The availability of various types of formazans, the prospects for their use in the synthesis of heterocycles, and the principles of the construction of various heterocyclic systems on the basis of the formazan fragment have already been discussed in general features in the first part of our review devoted to the synthesis of azoles on the formazans basis [1]. We will therefore only present a more detailed scheme of the possible paths to the formation of six-membered heterocyclic systems from formazans. As in the case of azoles, the principles of the construction of azine rings are based on the ability of the formazan fragment to enter completely or partially into the heterocycle that forms (Scheme 1) [2][3][4][5][6][7][8][9][10][11]. Most of the described paths (a-g in Scheme 1) involve intramolecular cyclization quite often without isolation of the precursor. There are only two examples of intermolecular [4+2] cycloaddition of formazans as 1,2,4-triazabuta-1,3-dienes with only one type of dienophile (path h) [12], since it has been demonstrated that the formation of 1,4-diaryl-3,6-bis(arylazo)-1,4-dihydro-1,2,4,5-tetrazines from 1,5-diaryl-3-chloroformazans (path i) is a two-step process and can be regarded as a variant of the intramolecular cyclization of path d (Scheme 1).The N-1 atom and one of the atoms of the substituents at the N-5 atom of the formazan fragment are most often involved in the intramolecular cyclization of formazans to azine derivatives according to a [6+0] scheme (paths a-c, described for the C and B atoms). In other cases the formation of the six-membered ring according to the [6+0] scheme results from nucleophilic substitution by a fragment of the meso substituent (from R 3 ) at the N-5 atom of the formazan fragment (paths d-f and, possibly, i). The cyclization of formazans with loss of one of the nitrogen atoms has only been described for cases of the formation of benzo-1,2,4-tria-zines (path h) [2-5, 10, 11].

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