Aniline dyes

Textile dyes were, until the nineteenth century invention of aniline dyes, derived from biological sources plants or animals, eg, insects or, as in the case of the highly prized classical dyestuff Tyrian purple, a shellfish. Some of these natural dyes are so-caUed vat dyes, eg, indigo and Tyrian purple, in which a chemical modification after binding to the fiber results in the intended color. Some others are direct dyes, eg, walnut sheU and safflower, that can be apphed directly to the fiber. The majority, however, are mordant dyes a metal salt precipitated onto the fiber facUitates the binding of the dyestuff Aluminum, iron, and tin salts ate the most common historical mordants. The color of the dyed textile depends on the mordant used for example, cochineal is crimson when mordanted with aluminum, purple with iron, and scarlet with tin (see Dyes AND DYE INTERMEDIATES). 

Adrenal endocrine disrupters Aniline dyes Ketoconazole fungicides PCBs... 

The adsorption equation shows that a solute may very strongly lower the surface tension of a solvent, but cannot strongly raise it, since although T may reach high values by positive adsorption (in some cases, as with solutions of some aniline dyes, the pure solute appears as a thin skin on the surface), it can never sink below that of the pure solvent by negative adsorption. 

Trypan Red Paper. Prepd as above from product supplied by the Allied Chemical Dye Corp Rose-red - Light violet -> Bleached 0.1% Ethyl Violet Paper. Prepd as above from product supplied by National Aniline Dye Co Medium violet Blue - Bleached... 

The Story of the Discovery of the First Aniline Dye. Scientific American. 95... 

Nitroaromatics TNT, nitrobenzene, nitrophenols, atrazine Manufacture of aniline, dyes, drugs (P,D) Explosive industry, military facilities (P, D) Manufacture of pesticides and herbicides (D) C [46]... 

Historically, bladder tumors have been associated with exposures in the aniline dye industry. However, conclusive evidence for any one particular exposure could not be obtained in these studies since the workers were exposed to many chemicals within the same work area. For example, Case et al. (1954) investigated the incidence of bladder tumors among British workers in the chemical dye industry. In addition to aniline, the workers were exposed to other aromatic amines, including a- and P-naphthylamine, benzidine, and auramine. Although exposures could not be quantified, there was insufficient evidence to suggest that aniline was a cause of bladder cancers. More recent studies indicate that P-naphthylamine, 4-aminodiphenyl, 4-nitrodiphenyl, 4,4-diaminodiphenyl, or o-toluidine may be involved in increased cancers in the dye industry (Ward et al. 1991 Benya and Cornish 1994). 

Kagan, B.M., B.Mirman, J.Calvin, and E.Lundeen. 1949. Cyanosis in premature infants due to aniline dye intoxication. J. Pediat. 34 574-578. 

Pickup, J.D., and J.Eeles. 1953. Cyanosis in newborn babies caused by aniline-dye poisoning. Lancet 2 118. 

Since its initial discovery by Michael Faraday in 1825,58 benzene (C6H6) has been recognized as an extraordinary substance. The spectacular properties of benzene and its derivatives (particularly the aniline dyes discovered by W. H. Perkin) initiated dramatic growth of the pharmaceutical, dyestuff, and munitions industries in the mid nineteenth century. The famous puzzle of the chemical structure of benzene was solved in 1865 by August Kekule in terms of two alternative six-membered-ring formulas ... 

Uses of hydrogen chloride—Hydrogen chloride is sometimes used in the preparation of an ester, for example ethyl benzoate, where it acts as both an acid catalyst and a dehydrating agent. Hydrochloric acid is used primarily to produce chlorides, for example ammonium chloride. It is extensively used in the manufacture of aniline dyes, and for cleaning iron before galvanising and tin-plating. 

Uses Manufacture of acetic acid, acetic anhydride, aldol, aniline dyes, 1-butanol, 1,3-butylene glycol, cellulose acetate, chloral, 2-ethylhexanol, paraldehyde, pentaerythritol, peracetic acid, pyridine derivatives, terephthalic acid, trimethylolpropane, flavors, perfumes, plastics, synthetic rubbers, disinfectants, drugs, explosives, antioxidants, yeast silvering mirrors hardening gelatin fibers. 

The industrial revolution of the late nineteenth and early twentieth century brought clear confirmation that occupational exposure to chemicals could cause cancer. The first indication came from increases in skin and bladder cancers associated with cutting oils and dyes. In 1895 bladder cancer was associated with workers in the aniline dye industry. Further worker-based studies found that exposure to... 

Percivall Pott made one of the first observations of a health risk related to occupational exposure. In 1775, he noted that chimney sweeps had a higher incidence of cancer of the scrotum. A century later, in 1895, it was observed that workers in the aniline dye industry were more likely to develop bladder cancer. 

Percutaneous drug absorption can present special problems in newborns, especially in preterm infants. While the skin of a newborn term infant may have the same protective capacity as the skin of an adult, a preterm infant will not have this protective barrier until after 2 to 3 weeks of life. Excessive percutaneous absorption has caused significant toxicity to preterm babies. Absorption of hexachlorophene soap used to bathe newborns has resulted in brain damage and death. Aniline dyes on hospital linen have caused cyanosis secondary to methemoglobinemia, and EMLA (lidocaine/prilocaine) cream may cause methemoglobinemia when administered to infants less than 3 months of age. 

August Wilhelm von Hofmann, 1818-1892. German chemist who served for many years as the first professor at the Royal College of Chemistry in London Founder of the aniline dye industry He devised the simple process of preparing aniline by ultrabng benzene and reducing the nitrobenzene. He was one of the founders of the Deutsche Chem-lsche Gesellschaft, and was elected president fourteen times. See also ref. (65). 

Iodine is used in various forms in medicine—e.g. tincture of iodine, liquor iodi, iodized cotton, iodized wine, iodized water, oils and syrups iodides of potassium, mercury, iron, arsenic, lead, etc. and as methyl iodide or di-iodide iodoform, CHI3 ethyl iodide, C2H5I iodole, C4I4.NH aristole etc.—largely for external application as an antiseptic. Some iodides are used in photography, and in analytical operations and a considerable amount of iodine is used in the preparation of aniline dyes. 

It is used dS ail SiiLipyrctiC, eifttiScptiC Ol pectorant used in calico printing and in the man-uf of aniline dyes(Ref 3)- In the pure state it is used as a std in acidimetry, thermometry and calorimetry. Its nitro compds have been used in the expl industry... 

Benzene is used as a chemical intermediate for the production of many important industrial compounds, such as styrene (polystyrene and synthetic rubber), phenol (phenolic resins), cyclohexane (nylon), aniline (dyes), alkylbenzenes (detergents), and chlorobenzenes. These intermedi-... 

Uses Nitrobenzene is a colorless to pale yellow liquid. It has been used extensively in a variety of industries, (e.g., the manufacture of aniline dyes and soaps, as solvent for paints, for refining lubricating oils, as shoe polish, floor polish, dressings for leather products, the manufacture of explosives). 

If most drugs achieve their effects via interaction with a receptor, then by what chemical binding force is this achieved Ehrlich recognized very early that the combining forces must be very loose. He wrote in 1900 If alkaloids, aromatic amines, antipyretics or aniline dyes be introduced into the animal body, it is a very easy matter, by means of water, alcohol or acetone, to remove all of these substances quickly and easily from the tissues. This is the reason why isolated organ tissue... 

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