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Heterocyclic neutral

DFT calculations for other heterocycles (neutral azoles, protonated forms) have been reported (94T2405, for semiempirieal ealeulations see 93ZOR1297 see also AMI, MNDO, and PM3 ealeulations for neutral five-and six-membered nitrogen heteroeyeles). [Pg.94]

Over the last few decades the number of stable heterocyclic neutral radicals has dramatically increased. There have been significant efforts to use these unusual open-shell compounds in a broad array of applications that include use as reagents in synthesis, spin active probes in analysis, polymerization initiators, redox active ligands, and in the material sciences for their potential use in electronic devices. In this brief review, which covers the period since 2000, we survey advances in heterocyclic neutral organic radicals that contain either an endocyclic hydrazyl or thiazyl unit. Emphasis is on new synthetic methods, physical properties, and applications. [Pg.173]

The general pattern of alkylation of 2-acylaininothiazoles parallels that of 2-aminothia2ole itself (see Section III.l). In neutral medium attack occurs on the ring nitrogen, and in alkaline medium a mixture of N-ring and N-amino alkylation takes place (40, 43, 161. 163). In acidic medium unusual behavior has been reported (477) 2-acetamido-4-substituted thiazoles react with acetic anhydride in the presence of sulfuric acid to yield 2-acetylimino-3-acetyl-4-phenyl-4-thiazolines (255) when R = Ph. but when R4 = Me or H no acetylation occurs (Scheme 151). The explanation rests perhaps in an acid-catalyzed heterocyclization with an acetylation on the open-chain compound (253), this compound being stabilized... [Pg.91]

Nucleophilic reactivity of the sulfur atom has received most attention. When neutral or very acidic medium is used, the nucleophilic reactivity occurs through the exocyclic sulfur atom. Kinetic studies (110) measure this nucleophilicity- towards methyl iodide for various 3-methyl-A-4-thiazoline-2-thiones. Rate constants are 200 times greater for these compounds than for the isomeric 2-(methylthio)thiazole. Thus 3-(2-pyridyl)-A-4-thiazoline-2-thione reacts at sulfur with methyl iodide (111). Methyl substitution on the ring doubles the rate constant. This high reactivity at sulfur means that, even when an amino (112, 113) or imino group (114) occupies the 5-position of the ring, alkylation takes place on sulfiu. For the same reason, 2-acetonyi derivatives are sometimes observed as by-products in the heterocyclization reaction of dithiocarba-mates with a-haloketones (115, 116). [Pg.391]

Active Raney nickel induces desulfurization of many sulfur-containing heterocycles thiazoles are fairly labile toward this ring cleavage agent. The reaction occurs apparently by two competing mechanisms (481) in the first, favored by alkaline conditions, ring fission occurs before desul-, furization, whereas in the second, favored by the use of neutral catalyst, the initial desulfurization is followed by fission of a C-N bond and formation of carbonyl derivatives by hydrolysis (Scheme 95). [Pg.134]

When activating substituents are present in the benzenoid ring, substitution usually becomes more facile and occurs in accordance with predictions based on simple valence bond theory. When activating substituents are present in the heterocyclic ring the situation varies depending upon reaction conditions thus, nitration of 2(177)-quinoxalinone in acetic acid yields 7-nitro-2(177)-quinoxalinone (21) whereas nitration with mixed acid yields the 6-nitro derivative (22). The difference in products probably reflects a difference in the species being nitrated neutral 2(177)-quinoxalinone in acetic acid and the diprotonated species (23) in mixed acids. [Pg.163]

A versatile method for the synthesis of a variety of five-membered heterocycles and their ring-fused analogs involves the reaction of a neutral 47r-electron-3-atom system with a 27T-electron system, the dipolarophile, which is usually electron deficient in nature. Available evidence, e.g. retention of dipolarophile stereochemistry in the product and solvent polarity exerting only a moderate influence on the reaction, indicates that the cycloaddition proceeds via a concerted mechanism 63AG(E)565, 63AG(E)633, 68JOC2291) and may be represented in general terms by the expression in Scheme 8. [Pg.143]

In the section dealing with electrophilic attack at carbon some results on indazole homocyclic reactivity were presented nitration at position 5 (Section 4.04.2.1.4(ii)), sulfon-ation at position 7 (Section 4.04.2.1.4(iii)) and bromination at positions 5 and 7 (Section 4.04.2.1.4(v)). The orientation depends on the nature (cationic, neutral or anionic) of the indazole. Protonation, for instance, deactivates the heterocycle and directs the attack towards the fused benzene ring. A careful study of the nitration of indazoles at positions 2, 3, 5 or 7 has been published by Habraken (7UOC3084) who described the synthesis of several dinitroindazoles (5,7 5,6 3,5 3,6 3,4 3,7). The kinetics of the nitration of indazole to form the 5-nitro derivative have been determined (72JCS(P2)632). The rate profile at acidities below 90% sulfuric acid shows that the reaction involves the conjugate acid of indazole. [Pg.259]

The common impurities found in amines are nitro compounds (if prepared by reduction), the corresponding halides (if prepared from them) and the corresponding carbamate salts. Amines are dissolved in aqueous acid, the pH of the solution being at least three units below the pKg value of the base to ensure almost complete formation of the cation. They are extracted with diethyl ether to remove neutral impurities and to decompose the carbamate salts. The solution is then made strongly alkaline and the amines that separate are extracted into a suitable solvent (ether or toluene) or steam distilled. The latter process removes coloured impurities. Note that chloroform cannot be used as a solvent for primary amines because, in the presence of alkali, poisonous carbylamines (isocyanides) are formed. However, chloroform is a useful solvent for the extraction of heterocyclic bases. In this case it has the added advantage that while the extract is being freed from the chloroform most of the moisture is removed with the solvent. [Pg.63]

The electrochemistry of S-N and Se-N heterocycles has been reviewed comprehensively. The emphasis is on the information that electrochemical studies provide about the redox properties of potential neutral conductors. To be useful as a molecular conductor the 4-1, 0, and -1 redox states should be accessible and the neutral radical should lie close to the centre of the redox spectrum. The chalcogen-nitrogen heterocycles that have been studied in most detail from this viewpoint... [Pg.42]

The neutral radical 11.12 is an interesting heterocyclic analogue of 2,2 -bipyridyl. This paramagnetic (spin-bearing) ligand forms an N, -chelated complex with bis(hexafluoroacetylacetonato)cobalt(ir). ... [Pg.220]

The ionization constant of a typical heterocyclic compound (e.g., quinoline) designates the equilibrium involving a proton, a neutral molecule and its cation. With quinazoline, however, two distinct species (hydrated and anhydrous) are involved each of which is in equilibrium with its cation, and can be represented as in the reaction scheme, (7), (8), (3), and (4). [Pg.259]

The methods outlined, of course, are readily applicable to a wide variety of substituted heterocycles like the carboxyl, hydroxy and mercapto derivatives of pyridines, pyridine 1-oxides, pyrroles, etc. The application to amines and to diaza compounds such as pyrimidine, where the two centers are basic, is obvious except that now 23 takes the role of the neutral compound, 21 and 22 the roles of the tautomeric first conjugate bases, and 20 the role of the second conjugate base. Extensions to molecules with more than two acidic or basic centers, such as aminonicotinic acid, pyrimidinecarboxylic acids, etc., are obvious although they tend to become algebraically cumbersome, involving (for three centers) three measurable Kg s, four Ay s, and fifteen ideal dissociation constants (A ), a total of twenty-two constants of which seven are independent. [Pg.258]

A few studies on solvolyses by alcohols and by water are available. The hydrolyses studied include displacement of alkylamino groups from acridine antimalarials and of halogen from other systems. In all cases, these reactions appeared to be first-order in the heterocyclic substrate. By a detailed examination of the acid hydrolysis of 2-halogeno-5-nitropyridine, Reinheimer et al. have shown that the reaction rate varies as the fourth power of the activity of water, providing direct evidence that the only reactive nucleophile is neutral water, as expected. [Pg.294]

Reversible covalent hydration across C=N bonds occurs in a number of nitrogen-containing heterocycles, including pteridine and its 2- and 6-hydroxy derivatives, quinazoline (as the cation), and 1,4,6-triazanaphthalene (as the cation). Among bases giving this reaction, the neutral molecule exists predominantly as the anhydrous form, whereas the cation contains an increased proportion of the... [Pg.43]

Similar considerations apply to nitrogen-containing heterocycles carrying acidic groups, for example 2-hydroxypteridine, but the situation is further complicated by lactam-lactim tautomerism in the neutral species. Thus, hydroxypteridines exist predominantly as lactams, such as 6, in dynamic equilibrium with small amounts of lactims, such as 7. There is, in consequence, a decrease in the aromatic... [Pg.46]

Tables V and VI contain all the equilibrium constants so far reported for nitrogen-containing heterocycles that undergo reversible covalent hydration. Table V comprises equilibria involving hydration in cations and neutral molecules, and Table VI deals with systems of neutral molecules and anions. Tables V and VI contain all the equilibrium constants so far reported for nitrogen-containing heterocycles that undergo reversible covalent hydration. Table V comprises equilibria involving hydration in cations and neutral molecules, and Table VI deals with systems of neutral molecules and anions.
Our previous treatment (76AHCS1, p. 12) contained a section called Chemical Methods to Study Tautomerism where the relationship between tautomerism and reactivity was discussed. Today, nobody uses chemical methods to study tautomerism. However, a great many reactions are carried out on tautomeric heterocycles, although few papers contain new insights on that topic. Authors desiring to explain reactivity results based on tautomerism must take great care to verify that the substrate is in the neutral form AH and not as a conjugated anion A or cation HAH, which are usually devoid of tautomerism. They must also realize that most frequently the reaction path from tautomers to products in-... [Pg.58]

Sixteen non- to trimethyl-substituted thiazoloquinolines of these types were inveshgated under electron impact mass spectra thiazoloquinolines lose carbon monosulhde (CS) from the thiazole and HCN from both heterocyclic nuclei. When 2-methylthiazoloquinolines fragment, the hydrogen radical and a loss of a neutral... [Pg.203]

In contrast to the alkaloids mentioned so far, heterocyclic mesomeric betaines are defined as neutral conjugated molecules which can be represented only by dipolar structures in which both the negative and the positive charges are delocalized within the rr-electron system (38JCS824, 85T2239). The first heterocyclic mesomeric betaine was prepared unknowingly by Emil Fischer (1882LA316). The real structure remained unknown... [Pg.71]


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See also in sourсe #XX -- [ Pg.20 ]




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