Quinoxalin-2-one preparations

Poly(phenylquinoxaline—arnide—imides) are thermally stable up to 430°C and are soluble in polar organic solvents (17). Transparent films of these materials exhibit electrical insulating properties. Quinoxaline—imide copolymer films prepared by polycondensation of 6,6 -meth5lene bis(2-methyl-3,l-benzoxazine-4-one) and 3,3, 4,4 -benzophenone tetracarboxyUc dianhydride and 4,4 -oxydianiline exhibit good chemical etching properties (18). The polymers are soluble, but stable only up to 200—300°C. 

Perhaps one of the most exciting developments in the chemistry of quinoxalines and phenazines in recent years originates from the American University of Beirut in Lebanon, where Haddadin and Issidorides first made the observation that benzofuroxans undergo reaction with a variety of alkenic substrates to produce quinoxaline di-AT-oxides in a one-pot reaction which has subsequently become known as the Beirut reaction . Many new reactions tend to fall by the wayside by virtue of the fact that they are experimentally complex or require starting materials which are inaccessible however, in this instance the experimental conditions are straightforward and the starting benzofuroxans are conveniently prepared by hypochlorite oxidation of the corresponding o-nitroanilines or by pyrolysis of o-nitrophenyl azides. 

This method is widely applicable to the unambiguous synthesis of quinoxalin-2-ones." It involves the intermediate preparation of a l,2,3,4-tetrahydro-2-oxoquinoxaline by the reductive ring closure of the o-nitrophenyl derivative of an a-aminoacid. These derivatives are formed readily from the aminoacid and an o-nitrohalogenobenzene. The final step of oxidation of the tetrahydro- to the dihydro-quinoxa-line is carried out with potassium permanganate or hydrogen peroxide. The preparation of 7-nitroquinoxalin-2-one illustrates the application of this synthesis ... 

Many nitroquinoxalines have been prepared by primary synthesis (see Chapter 1), from halogeno quinoxalines (see Section 3.2.7), or by passenger introduction (e.g., on deoxidative alkylation of an M-oxide see Section 4.6.2.2). However, one major route and one minor preparative route remain, and they are illustrated in the following subsections. 

Brightener structures of only moderate molecular size are of interest for white grounds in the transfer printing of polyester fabrics. Derivatives of 6-acetamidoquinoxaline with an electron-donating substituent (X) in the 2-position (11.48) were prepared by converting quinoxalin-2-one to 2-chloro-6-nitroquinoxaline and condensation with amines (X = RNH), alcohols (X = RO) or phenols (X = PhO), followed by reduction and acetylation (Scheme 11.19). The nitro intermediates (11.49) are also of interest as low-energy disperse dyes for polyester [61]. 

The compound I O.i. I Ob-dihydro-5//, 12//-4b,5,6,12-tetraaza-chrysen-l ] -one 81 <2003JHC357> was prepared through diazotization of the corresponding amine derivative 3-(2-aminophenyl)-l//-quinoxalin-2-one 78. The reaction proceeded through intermediates 79 and 80 (Scheme 4). 

Pyridine A-oxides were converted to tetrazolo[l,5-a]pyridines 172 by heating in the presence sulfonyl or phosphoryl azides and pyridine in the absence of solvent <06JOC9540>. 3-R-5-Trinitromethyltetrazolo[l,5-a]-l,3,5-triazin-7-ones 173 have been prepared from the alkylation of 5-trinitromethyltetrazolo[l,5-a]-l,3,5-triazin-7-one silver salt with different alkylation agents <06CHE417>. The use of 2-fluorophenylisocyanide in the combinatorial Ugi-tetrazole reaction followed by a nucleophilic aromatic substitution afforded tricylic tetrazolo[l,5-a]quinoxaline 174 in good yields and with high diversity <06TL2041>. 

In a similar fashion, one of the halogens in quinoxaline 210 was displaced with allyl amines 211 in order to prepare intermediates 212 <99JOC8425>. These... 

As with several PAEH, PAE containing quinoxaline units were prepared by two different approaches. One route involved the reaction of an aromatic bis(fluoroquinoxaline) compound with various bisphenolates as depicted in Eq. (1) [12]. The quinoxaline unit as with many other heterocyclic units was... 

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