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Chromophores amino group auxochrome

Figure 4.10 shows the UV absorption spectra of a solution of procaine in 0.1 M HCl and O.IM NaOH. In procaine, the benzene chromophore has been extended by addition of a C = O group and under acidic conditions, as in Figure 4.10, the molecule has an absorption at 279 nm with an A (1%, 1 cm) value of 100. In addition to the extended chromophore, the molecule also contains an auxochrome in the form of an amino group, which under basic conditions has a lone pair of electrons that can interact with the chromophore producing a bathochromic shift. Under acidic conditions the amine group is protonated and does not function as an auxochrome but when the proton is removed from this group under basic conditions a bathochromic shift is produced and an absorption with A, max at 270 nm with an A (1%, 1 cm) value of 1000 appears. [Pg.84]

Dyes of this class are the ortho- or para-nitrophenols, nitronaphthols, and nitroamines. The chromophore is the nitro (—NO2) group, and the auxochromes are hydroxyl and amino groups. [Pg.892]

Xanthene dyes are those containing the xanthylhim [261-23-4] (la) or diben2o-y-pryan nucleus [92-83-1] (xanthene) (lb) as the chromophore with amino or hydroxy groups meta to the oxygen as the usual auxochromes. They are... [Pg.398]

Dyestuff organic chemistry is concerned with designing molecules that can selectively absorb visible electromagnetic radiation and have affinity for the specified fiber, and balancing these requirements to achieve optimum performance. To be colored the dyestuff molecule must contain unsaturated chromophore groups, such as a2o, nitro, nitroso, carbonyl, etc. In addition, the molecule can contain auxochromes, groups that supplement the chromophore. Typical auxochromes are amino, substituted amino, hydroxyl, sulfonic, and carboxyl groups. [Pg.351]

The azo compounds are important chromophores because of extended electronic delocalisation between the two aromatic rings via the azo bond. The darkness of the dye is enhanced by extensive delocalisation combined with several sulfonic acid groups which function as auxochromes. An example is provided by Naphthol Blue Black B (10), prepared from 8-amino-l-hydroxynaphthalene-3,6-disulfonic acid (H-acid) (11) by coupling it in the 7-position with diazotised p-nitroaniline in acidic solution and subsequently coupling in the 2-position with diazotised aniline in alkaline solution (Scheme 3). The H-acid (11) is a very versatile component in dye manufacture because it can couple with diazonium salts in either the 2-position or 7-position depending on the pH of the reaction medium, as indicated in Scheme 3. [Pg.223]

See other pages where Chromophores amino group auxochrome is mentioned: [Pg.78]    [Pg.206]    [Pg.388]    [Pg.388]    [Pg.19]    [Pg.303]    [Pg.163]    [Pg.465]    [Pg.361]    [Pg.70]    [Pg.585]    [Pg.1247]    [Pg.389]    [Pg.266]    [Pg.22]    [Pg.320]    [Pg.27]    [Pg.22]    [Pg.1756]    [Pg.74]    [Pg.39]   
See also in sourсe #XX -- [ Pg.84 ]



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Amino chromophore

Auxochrome

Auxochrome groups

Auxochromes

Chromophoric group

Chromophorous groups

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