Amination, oxidative 1.2.4- triazines

Peroxides oxidize TPDD to Wurster s blue, a product with a semiquinone diimine structure [1]. Similarly Wurster s blue is also produced from TPDD by reaction with halogen-containing substances produced by the reaction of aromatic amines and triazines with chlorine gas. 

Amide reduction with lithium aluminum hydride, 39, 19 Amine oxide formation, 39, 40 Amine oxide pyrolysis, 39, 41, 42 -Aminoacetanilide, 39, 1 Amino adds, synthesis of, 30, 7 2-Amino-4-anilino-6-(chloro-METHYl) -S-TRIAZINE, 38, 1 -Aminobenzaldehyde, 31, 6 hydrazone, 31, 7 oxime, 31, 7 phenylhydrazone, 31, 7 > -Aminobenzoic add, 36, 95 2-Aminobenzophenone, 32, 8 c-Aminocaproic acid, 32, 13 6-Aminocaproic acid hydrochloride,... 

Scheme 23 Amination of triazine A-oxides in liquid NH3/KMn04 system...

Furalazine, Acetylfuratrizine, Panfuran-S. Heating nitrovin in butanol or dimethylformamide at 100—130°C affords furalazine, 6-[2-(5-nitro-2-furanyl)ethenyl]-l,2,4-triazine-3-amine (34). An improved synthesis originates with 5-nitro-2-furancarboxaldehyde and acetone, proceeds through 4-(5-nitro-2-furanyl)-3-buten-2-one followed by a selenium dioxide oxidation to the pymvaldehyde hydrate, and subsequent reaction with aininoguariidine (35). Furalazine, acetylfuratrizine (36), and the A[-A/-bis(hydroxymethyl) derivative, Panfuran-S, formed from the parent compound and formaldehyde (37), are systemic antibacterial agents. 

Oligomeric hindered amine light stabilizers are effective thermal antioxidants for polypropylene. Thus 0.1% of A[,Af-bis(2,2,6,6-tetramethyl-4-piperadinyl)-l,6-hexanediamine polymer, with 2,4,6-trichloro-l,3,5-triazine and 2,4,4-trimethyl-2-pentaneainine [70624-18-9] (35) (Fig. 5), protects polypropylene multifilaments against oxidation when exposed at 120°C in a forced-air oven (22) for 47 days. 3,5-Di-/ l -butyl-4-hydroxytoluene [128-37-0] (0.1%) affords protection for only 14 days. 

Another pathway for the aromatization of the cr -adducts was found in the reactions of 3-pyrrolidino-l,2,4-triazine 4-oxide 81 with amines. Thus the treatment of 1,2,4-triazine 4-oxide 81 with ammonia leads to 5-amino-1,2,4-triazine 4-oxides 54—products of the telesubstitution reaction. In this case the cr -adduct 82 formed by the addition of ammonia at position 5 of the heterocycle undergoes a [l,5]sigmatropic shift resulting in 3,4-dihydro-1,2,4-triazine 83, which loses a molecule of pyrrolidine to yield the product 54. This mechanism was supported by the isolation of the key intermediates for the first time in such reactions—the products of the sigmatropic shift in the open-chain tautomeric form of tiiazahexa-triene 84. The structure of the latter was established by NMR spectroscopy and X-ray analysis. In spite of its open-chain character, 84 can be easily aromatized by refluxing in ethanol to form the same product 54 (99TL6099). 

Similarly, ring opening was found in reactions of 6-aryl-1,2,4-triazine 4-oxides 53 with aliphatic amines, yielding open-chain 6-amino-1-hydroxy- 1,4,5-triazahex-atrienes 85. In this case, however, the nucleophile adds to the 3 position of the... 

The increase in thermodynamic stability of 85 is achieved by easy ring opening (01H127). This knowledge allows one to control the regioselectivity of the oxidative amination of the 6-aryl-l,2,4-tiiazine 4-oxides 53, obtaining either (i) the 5-amino-1,2,4-triazine 4-oxides 56 in the reaction of 53 with amines at low temperature in the presence of the oxidant or (ii) the 3-amino-1,2,4-triazine 4-oxides 88, provided the reaction is carried out in two steps (addition and oxidation) at room temperature or higher. 

The reaction of the fervenulin 1-oxides 100 with secondary amines results in contraction of the 1,2,4-triazine ring to form 2-amino-5,7-dimethylimidazo[4,5-e] pyrimidine-4,6(5/7,7//)-diones 101. The reaction of the same fervenulin 1-oxides 100 with ammonia leads to the 1,2,4-triazine ring cleavage product, 1,3-dimethyl-5-imino-6-isonitrosouracil 102 (94KGS1253). 

Of all the aza-heterocycles, pyridine possesses the least electron deficiency. Because of this, pyridine itself does not form a a-complex in liquid ammonia and cannot be aminated under these conditions. By the contrast, highly ir-deficient polyaza-heterocycles (diazines, triazines, tetrazines, pteridines, etc.) undergo oxidative amination, sometimes even by liquid ammonia itself. Sodamide converts 4-methylpyrimidine successively into the 2-mono- and 2,6-di-amino derivatives, and pyrazine gives... 

When 3-phenyl-l,2,4-triazine (411) reacts with the enamine (406), orientation B is followed. In this case the 3,4-dihydropyridine (412) is formed and is isolated. Elimination of the amine directly is unfavourable, because of the cis orientation, and transfer of the proton to the pyridine nitrogen is impossible. Oxidation to the (V-oxide (413) and Cope elimination affords the condensed pyridine (414) (78UP21900). 

Solid-phase syntheses of triazines (Table 15.32) include the cyclocondensation of polystyrene-bound isothiuronium salts with /V-(cyano)iminodithiocarbonates and the cyclization with simultaneous cleavage from the support of derivatives of a-amino acid hydrazides (Table 15.32). (Benzylthio)triazines, such as those listed in Table 15.32 (Entries 1 and 2), have been cleaved from a support by oxidation to sulfoxides or sul-fones with N-benzenesulfonyl-3-phenyloxaziridine, followed by nucleophilic cleavage with primary or secondary aliphatic amines or with electron-rich anilines (see Section 3.8). 

Excellent correlations were obtained between the degradation rate constants of triazin herbicides and EHOmo/ as shown in Figure 8.15 and Figure 8.16. This suggests that amines subject to nucleophilic oxidation therefore, EHOMO... 

In the 1,3,5-triazine series the oxidative amination of diphenyl-1,3,5-triazine into aminodiphenyl-1,3,5-triazine has been reported (Scheme 29) (82JHC1285). 

Dimethylpyrimido[4,5-< ]pyridazine-5,7(6i7,8//)-dione 7V(2)-oxide gives oxidative alkylamination at position 3 (Scheme 35) (88KGS1696) and isofervenulin gives, with ammonia or an alkylamine in the presence of an oxidant, (alkyl)amination at C-3 (Scheme 35) (88KGS1696, 00KGS1403). This C-3 substitution of isofervenuline is claimed to be the first example of amination in the triazine ring at position 3. 

Compounds (83) and (85) were oxidized to the corresponding 1,4-dioxides (94) and (95) and treatment of these with amines led to a variety of products. For example, compound (94) gave products such as the 3-morpholinyl derivative (96) or the 3-benzylpyrido[4,3-e]-l,2,4-triazine (97) <76MI 717-01). 

Here we report the use of a readily prepared polymer immobilised TEMPO as a catalyst for alcohol oxidations.15 It was derived from a commercially available oligomeric, sterically hindered amine, poly[[6-[(l,l,3,3-tetramethylbutyl)amino]-l,3,5-triazine-2,4-diyl] [2,2,6,6-teramethyl-4-piperidinyl)-imino]-1,6-hexane-diyl[(2,2,6,6-tetramethyl-4-piperidinylimino]], better known as Chimassorb 944 (MW 3000 see figure 3 for structure). This compound is used as an antioxidant and a light stabiliser for plastics. It contributes significantly to the long-term heat stability of polyolefins and has broad approval for use in polyolefin food packaging.16... 

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