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Triazines bonds

An important area of research in silicon phthalocyanine chemistry has been the preparation of conducting polymers through Si—O—Si links.In one recent example, silicon phthalocyanine complexes have been appended to a den-drimer framework through Si—O—C(triazine) bonds formed by reaction of the salt Na [Si(Pc)(Ph)0 ] with a dichlorotriazine derivative. [Pg.321]

At — 30°C, reduction of the triazine ligand is not observed. Instead, full reduction of the clusters via a three-electron process occurs, and no exchange intensity is apparent. This is likely due to restriction of rotation about the cluster-triazine bonds, resulting in unfavourable orbital overlap at low temperature. [Pg.139]

Fig. 6.24 Bond parameters of the 1,2,3-triazine system in 4,5,6-tris(4-methoxyphenyl)-1,2,3-triazine (bond lengths in pm, bond angies in degrees)... Fig. 6.24 Bond parameters of the 1,2,3-triazine system in 4,5,6-tris(4-methoxyphenyl)-1,2,3-triazine (bond lengths in pm, bond angies in degrees)...
The half-lives for these four compounds taken from the literature allowed the estimation of the Four reaction rates necessai to model their degradation [18], As a first approximation, the rate of hydrolysis of the C-Cl bond of all Four, -triazine compounds was assumed to be the same and to be 5.0 x 10 s on the basis of literature precedence. This approximation seems reasonable as the four structures differ only in the alkyl groups at a site quite remote from the C-CI bond. Furthermore, among the Four reaction steps hydrolysis is the slowest anyway. [Pg.553]

Many chemical compounds have been described in the Hterature as fluorescent, and since the 1950s intensive research has yielded many fluorescent compounds that provide a suitable whitening effect however, only a small number of these compounds have found practical uses. Collectively these materials are aromatic or heterocycHc compounds many of them contain condensed ring systems. An important feature of these compounds is the presence of an unintermpted chain of conjugated double bonds, the number of which is dependent on substituents as well as the planarity of the fluorescent part of the molecule. Almost all of these compounds ate derivatives of stilbene [588-59-0] or 4,4 -diaminostilbene biphenyl 5-membeted heterocycles such as triazoles, oxazoles, imidazoles, etc or 6-membeted heterocycles, eg, coumarins, naphthaUmide, t-triazine, etc. [Pg.114]

Melamine resins were introduced about ten years after the Beetle molding compound. They were very similar to those based on urea but had superior quaHties. Henkel in Germany was issued a patent for a melamine resin in 1936 (7). Melamine resins rapidly supplanted urea resins and were soon used in molding, laminating, and bonding formulations, as well as for textile and paper treatments. The remarkable stabiHty of the symmetrical triazine ring made these products resistant to chemical change once the resin had been cured to the insoluble, cross-linked state. [Pg.321]

The 27T-electrons of the carbon-nitrogen double bond of 1-azirines can participate in thermal symmetry-allowed [4 + 2] cycloadditions with a variety of substrates such as cyclo-pentadienones, isobenzofurans, triazines and tetrazines 71AHC(13)45). Cycloadditions also occur with heterocumulenes such as ketenes, ketenimines, isocyanates and carbon disulfide. It is also possible for the 27r-electrons of 1-azirines to participate in ene reactions 73HCA1351). [Pg.59]

Nucleophilic substitution of as-triazines is discussed in relation to hydrogen bonding and the effects of the leaving group and of other nuclear substituents in Sections II,C,D, and E, respectively. [Pg.300]

The effects of the following on nucleophilic substitution of s-triazines are discussed elsewhere hydrogen bonding and cationization (Sections II, C and III, A, 2), the leaving group (Section II, D), other nuclear substituents (Section II, E), and the nucleophile (Section II, F). [Pg.305]

Because of the high polarity of the C=N double bonds, cyanuric chloride (120, R= Cl) is comparable with a carboxylic acid chloride. This explains its smooth reaction with diazomethane to yield dichloro-(diazomcthyl)-l,3,5-triazine (121, R = The analogous com-... [Pg.286]

The isomer lowest in energy is predicted to be the 2,5-dihydro-1,2,4-triazine 198g. The most stable structures always show two C=N double bonds. Moreover, in polar solvents, 198h should also be a dominant species [00PCCP2187]. The valence and Rydberg excited states of 1,2,3-triazine have been studied by multireference methods (MRD-CI) and the results are compared with experimental spectra [98CP39]. [Pg.79]

Following is a schematic illustration of how triazine derivatives form covalent bonds with cellulose fibers ... [Pg.797]

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See also in sourсe #XX -- [ Pg.2 , Pg.196 ]



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Hydrogen bonding, triazine molecule

Triazines triple bonds

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