Ring with heterocyclics, mesoionic

Electric dipole moment studies have provided excellent support for the formulation of certain heterocycles as mesoionic compounds. Hanley et al. <78JCS(P1)600> have measured dipole moments for mesoionic l,2,3,4-thiatriazol-5-imines (20), 5-ones (21) and 5-ylidenemalononitriles (22) using a vector analysis similar to that previously employed for sydnones and other mesoionic compounds assuming that mesoionic rings are regular pentagons. The dipole moment of 3-phenyl-1,2,3,4-thiatriazolium-5-anilide (20) was found to be 3.71 D and five derivatives of compounds (21) were measured and the ring moment calculated to be 3.8 D. In both cases the dipole moments are rather small but clearly consistent with the mesoionic formulation. 3-Phenyl-l,2,3,4-thiatriazolium-5-dicyanomethanide (22) was found to have a dipole moment of 8.84 D. 

Huisgen and coworkers have also described the cycloaddition behavior of the munchnones , unstable mesoionic A2-oxazolium 5-oxides with azomethine ylide character.166 Their reactions closely parallel those of the related sydnones. These mesoionic dipoles are readily prepared by cyclodehydration of N-acyl amino acids (216) with reagents such as acetic anhydride. The reaction of munchnones with alkynic dipolarophiles constitutes a pyrrole synthesis of broad scope.158-160 1,3-Dipolar cycloaddition of alkynes to the A2-oxazolium 5-oxide (217), followed by cycloreversion of carbon dioxide from the initially formed adduct (218), gives pyrrole derivative (219 Scheme 51) in good yield. Cycloaddition studies of munchnones with other dipolarophiles have resulted in practical, unique syntheses of numerous functionalized monocyclic and ring-annulated heterocycles.167-169... 

Use of mesoionic ring systems for the synthesis of five-membered heterocycles with two or more heteroatoms is relatively restricted because of the few readily accessible systems containing two heteroatoms in the 1,3-dipole. They are particularly suited for the unambiguous synthesis of pyrazoles as the azomethine imine is contained as a masked 1,3-dipole in the sydnone system. An attractive feature of their use is that the precursor to the mesoionic system may be used in the presence of the cyclodehydration agent and the dipolarophile, avoiding the necessity for isolating the mesoionic system. 

Ollis and Ramsden state that A compound may be appropriately called mesoionic if it is a five-membered heterocycle which cannot be represented satisfactorily by any one covalent or polar structure and possesses a sextet of electrons in association with the five atoms comprising the ring . From the point of view of systematic nomenclature, compounds of this type are difficult to deal with, since most available nomenclature systems are designed so as to name one particular bond- and charge-localized canonical form. 

Another nonclassical heterocycle, thienol3,4-cJpyrazole, was synthesized, utilizing the ability of mesoionic ring systems to act as 1,3 dipoles in cycloadditions. Condensation of IV-phenylsydnone (162) with dibenzoylacetylene formed 3,4-dibenzoyl-1-phenylpyrazole (163) (85%) with phosphorus pentasulfide in refluxing pyridine, this gave 85% of 2,4,6-triphenyIthieno[3,4-c]pyrazole (164) [Eq. (44)]. The synthesis of 5-methyl-l,3,4,6-tetraphenylthieno[3,4-c]pyrrole is also described. ... 

Robert and co-workers (239,240) discovered novel conversions of 2-amino-1,3-dithiolium-4-olates (348) into other mesoionic heterocycles. For example, reaction of 348 with carbon disulfide, phenyl isocyanate, or phenyl isothiocyanate affords l,3-dithiolium-4-thiolates (349), l,3-thiazolium-4-olates (350), and 1,3-thiazolium-4-thiolates (351), respectively. Some of these reactions proceed via the ring-opened ketene tautomer of 348 (240). 

The 1,3-dipolar cycloaddition reactions of several other mesoionic heterocycles have been investigated since Potts review (1). Kato et al. (113,114,123) found that the l,3-thiazohum-5-olate (358) ring system affords low yields or complex reaction mixtures with benzocyclopropene (113), benzocyclobutadiene (114), and tropone (123). Likewise, Vedejs and Wilde (209) isolated in low yields a cycloadduct of 358d with thiopivaldehyde, along with a ring-opened thiamide. Also, 1,3-thiazo-lium-5-olate 359 reacts with thiopivaldehyde to give 360 (209). 

Numerous structures containing the thiocarbonyl ylide dipole are conceivable. Incorporation of the thiocarbonyl ylide dipole into a bicyclic heterocyclic system is possible by the conversion of the cyclic thione (203) into the ring-fused mesoionic system (204). The thiocarbonyl ylide dipole (205) undergoes cycloaddition with both alkenic and alkynic electron-poor dipolarophiles in refluxing benzene or xylene so that, after extrusion of hydrogen sulfide or sulfur, respectively, from the initial 1 1 cycloadducts (206) and (207), a ring-fused pyridinone is formed. The method has been used for the annelation of pyridinones to the imidazole, 1,2,4-triazole, thiazole and 1,3,4-thiadiazole systems... 

With many treatises about heterocyclic compounds, and with the impressive series Comprehensive Heterocyclic Chemistry in three series (84CHEC1,96CHEC2-1,08CHEC3-1), it makes little sense to deal in detail with individual compounds. Rather, this review will discuss trends observed when m increases stepwise from m = 4 to m = 9. Actually, it will be seen that there are no heterocyclic sextet-aromatic systems with eight-or nine-membered rings, but we have included such structures because it may be worthwhile to explore whether their strain-free bicyclic isomers may evidence isomerization to planar monocyclic mesoionic systems. 

The best known mesoionic compounds have five-membered rings, and initially it was advocated by Baker, Ollis, Ramsden and other authors that only five-membered heterocycles which cannot be satisfactorily represented by any one covalent or ionic structure possessing a sextet of TT-electrons in association with the five atoms comprising the ring may be called "mesoionic". Here, following Katritzky, mesoionic means a mesomeric betaine. The first such compounds to be discovered were sydnones, followed by miinchnones and then by diazolones. In all these compounds the Z-type atom is part of a carbonyl group, and two Y-type atom chains separate two odd-numbered chains of X- and Z-atom chains. Only the main resonance structures are displayed in formulas (Figure 11). 

This chapter deals with the synthesis, reactivity, and characterization of five-membered heterocycles containing two ring sulfur atoms (1,3-dithiole derivatives) and is a review of the literature in the period 1995-2006. Previous reviews covered the literature till 1982 (CHEC(1984)) <1984CHEC(6)813> and 1995 (CHEC-II(1996)) <1996CHEC-11(3)607>. Among 1,3-dithiole compounds, 1,3-dithiolylium ions 1, mesoionic l,3-dithiol-4-ones 2, mesoionic 1,3-dithiole-4-thiones 3, 1,3-dithioles 4, 1,3-dithiolanes 5, and the tetrathiafulv alene (TTF) system 6 as a special class of compounds are discussed. 7l-Extended tetrathiafulvalenes (7t-exTTFs) containing more than one conjugated multiple bond between two 1,3-dithiole moieties are also discussed, in conjunction with 6. 

Eight-membered rings can be obtained by [4+4]-cycloadditions of 1,3-dienes [1] via diradicals or other intermediates. Synthesis of such compounds has been achieved by thermal, [2] photochemical, [3] and by metal-catalyzed [4] processes these reactions have been the subject of extensive mechanistic [5] and theoretical [5c] studies. Their strategic applications in natural product synthesis have been reviewed. [5d] The thermal version has generated little interest, except in orthoquino-dimethane dimerizations and in cycloreversions the Cope rearrangement of 1,2-divinyl-cyclobutanes [3] is more commonly used. [4+4]-Cycloadditions are also used with 1,3-dipoles or mesoionic heterocycles for the synthesis of six- and seven-membered rings. Sometimes also [6+4]-cycloadditions are... 

Certain types of 5-membered heterocyclic rings have the unique feature of possessing dipolar structure with no resonance form that is neutral and fully covalent. Thus, they are cyclic zwitterions. There are more than 50 dipolar compounds (including some that have 6-membered rings) that have been synthesized they have become known as mesoionic compounds. Some of their properties suggest that they can be classified as aromatic substances. 

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