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Quinoidal structure

Not all of the hydrogens in phenol are equally reactive. Under acid conditions the quinoid structure... [Pg.325]

Occasionally, equilibria between a quinoid and a diradicaloid form of tetraazafulvaleiies of type 77 have been discussed (66AG303 72NKK100 79JOC1241). Based on ESR measurements, only traces of radicals (0.1% at 200°C) could be observed and therefore 77 (Ar = Ph) exists at room temperature predominately in the quinoid structure. Other authors stated that the thermochromism of 77 mainly results from a change in intermolecular interaction, not from biradical formation (84MI1030). [Pg.155]

In general, the A -methyl derivative of a given compound absorbs at longer wavelengths than the O-methyl derivative. The intensity of a band which appears in aqueous solutions beyond the maximum absorption in alcohol and which is due to the absorption of the betainic species alone, is a measure of the tautomeric equilibrium. The pA"a value of the 2-methyl-hydroxyisoquinolinium chlorides increase in the order 4-hydroxy (4.93), 8-hydroxy (5.81), 6-hydroxy (6.02), 5-hydroxy (6.90), and 7-hydroxy (7.09 in water at 25 °C, respectively) (57JCS5010). Thus, 2-methyl-4-hydroxyisoqui-nolinium chloride is the strongest acid. The UV spectra of 2-methyl-isoquinolinium-5-olate (34) and 2-methyl-isoquinolinium-8-olate (39) were also presented (61BCJ533) and the formation of a quinoid structure of 2-methyl-isoquinolinium-6-olate (38) can also be detected by means of UV-spectroscopy. [Pg.86]

The three different benzoxepins are simply assigned by the position of the oxygen 1 -benzoxepin, 2-benzoxepin, 3-benzoxepin. Among the four possible dibenzoxepins only dibenz[6,d]oxepin and dibenz[6,/]oxepin are of importance whereas the two other isomers are only of theoretical interest because they contain unfavorable o-quinoid structures. Benzannulation across all of the C-C double bonds leads to tribenz[6,rf,/]oxepin. [Pg.3]

According to the Hantzsch-Widman system, the seven-membered unsaturated hcterocyclc with one sulfur atom is named thiepin (1). The three different benzothiepins are assigned by the position of sulfur 1-benzothiepin (2), 2-benzothiepin (3) and 3-benzothiepin (4). Of the four possible dibenzothiepins only dibenzo[6,r/]thiepin (5) and dibenzo[A,/]thiepin (6) are of importance for synthesis, while the other two isomers, which contain unfavorable o-quinoid structures, exist mainly as the stable dihydro compounds, i.c. 5,7-dihydrodibenzo[c,t ]thiepin (7) and 6,1 l-dihydrodibenzo[6,c ]thiepin (8). Benzannulation over all double bonds results in tri-benzo[6,(7,/]thiepin (9). [Pg.65]

When the ortho-para directing group is one with an unshared pair (this of course applies to most of them), there is another effect that increases the amount of para product at the expense of the ortho. A comparison of the intermediates involved (p. 683) shows that C is a canonical form with an ortho-quinoid structure, while D has a para-quinoid structure. Since we know that para-quinones are more stable than the ortho isomers, it seems reasonable to assume that D is more stable than C, and therefore contributes more to the hybrid and increases its stability compared to the ortho intermediate. [Pg.686]

Substances that can oxidize to form a system of conjugated double bonds are frequently oxidized by atmospheric oxygen, iodine or iron(lll) salts. The products are chromo-phoric systems frequently containing ortho- or para-quinoid structure. [Pg.39]

From the cultures of streptomycetes were isolated anthacyclinones like aklavi-none. Various aromatic polyketide antibiotics produced by fungi and bacteria have quinoid structures, for example, doxorubicin, rhodomycin, and actinorhodin. ... [Pg.106]

Oxo-a-tocopherol (55) proved to be a very interesting compound with regard to forming various intermediate tautomeric and quinoid structures. It undergoes an intriguing rearrangement of its skeleton under involvement of different o-QM structures. The 4-oxo-compound was prepared from 3,4-dehydro-a-tocopheryl acetate via its bromohydrin, which was treated with ZnO to afford 4-oxo-a-tocopherol (55). [Pg.201]

The absorption bands for both quinoid and dipolar structures have been calculated by the PPP method.2,12 The calculations for a more simplified model of the colored form of some spirobenzopyrans using the normal parameters are shown in Table 2.12 In this case, the spiro carbon in the indoline moiety is ignored in the 7i-electron system, and the quinoid structure is assumed. [Pg.11]

An interesting way to generate telluronium dications involves electron transfer through a 71-conjugated system to a spatially remote sulfoxide sulfur atom in a domino manner. Treatment of substrate 141 with triflic anhydride results in reduction of the terminal sulfoxide group with simultaneous oxidation of the tellurium atom in the para-position and formation of a trichalcogen dicationic moiety 144143 through the intermediate sulfonium salt 142 and quinoid structure 143 (Scheme 52). [Pg.440]

In the case of fluorene 15, the l3C NMR signal for C-2,7 of the dication exhibited a large down-field shift of 65 ppm (C-2,7 5 202.7 ppm) as compared with neutral 15, indicating the significant contribution of the quinoid structure such as 152+(Q) (Figure 10) (20). [Pg.53]

Thiophene and thienothiophene units have been frequently used in thienoquinoid or condensed forms in the design of new molecular architecture (16). Incorporation of the thiophene or thienothiophene unit as a rc-bridge linker could stabilize the quinoidal structure in the reduced forms (Figures 13 and 14). These two-types of new dications (222+ and 232+) stabilize the presumed two-electron reduction state by contribution of the thienoquinoid substructures (22 and 23) instead of the quinoidal form in the dication 212+ (77). [Pg.182]


See other pages where Quinoidal structure is mentioned: [Pg.414]    [Pg.179]    [Pg.235]    [Pg.320]    [Pg.322]    [Pg.340]    [Pg.344]    [Pg.216]    [Pg.32]    [Pg.464]    [Pg.1]    [Pg.107]    [Pg.166]    [Pg.167]    [Pg.400]    [Pg.179]    [Pg.201]    [Pg.207]    [Pg.209]    [Pg.210]    [Pg.26]    [Pg.50]    [Pg.183]    [Pg.132]    [Pg.356]    [Pg.101]    [Pg.101]    [Pg.13]    [Pg.15]    [Pg.17]    [Pg.24]    [Pg.514]    [Pg.518]    [Pg.24]    [Pg.50]    [Pg.60]   
See also in sourсe #XX -- [ Pg.369 , Pg.370 , Pg.372 , Pg.374 ]

See also in sourсe #XX -- [ Pg.50 ]




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Quinoid structures

Quinoids

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