why is leucoindigo less colorful than indigo

This group, in turn, reacts with cellulose to form a unique dye-fibre bond. These dyes are the sulfate esters of hydroxyethylsulfonyl dyes, which, on treatment with mild base, generate the vinylsulfone group. This problem has been solved! Information on application methods, usage, and other technical data such as fastness properties are included. and are subdivided by colour.

Be on the lookout for your Britannica newsletter to get trusted stories delivered right to your inbox. These disperse dyes were originally developed for acetate rayon but became the fastest growing dye class in the 1970s because of the rapid increase in world production of PET, which can be dyed only with small disperse dyes. Some tanneries, such as that in Fès, Morocco, still rely on vat dyeing to tan leather. It is readily displaced by the oxygen and nitrogen of ―OH and ―NH2 groups. Indigo is insoluble but is readily reduced to a soluble, colourless form, leucoindigo. Colourfastness tests are published by the International Organization for Standardization. These new dyes, however, were sold as direct dyes for many years without recognition of their potential utility as dyes for cotton. ), which is edited by the Society of Dyers and Colourists and by the American Association of Textile Chemists and Colorists. For specific applications, crystal structure can be important for pigments, while particle size is significant for pigments, disperse dyes, and vat dyes. The Colour Index provides a valuable aid with which to penetrate the nomenclature jungle. Question: Offer An Explanation As To Why Indigo Is More Colorful Than Leucoindigo That Involves The Types Of Conjugation In The Two Molecules. Our latest podcast episode features popular TED speaker Mara Mintzer. The distinction between dyes and pigments is somewhat hazy, however, since organic pigments are closely related structurally to dyes, and there are dyes that become pigments after application (e.g., vat dyes). In essence, this causes the flat indigo molecule to rotate about that axis and become non flat. This process was traditionally done outdoors in large vessels or vats and, hence, was named vat dyeing, and the term is still used for this procedure. In 1953 British chemists Ian Rattee and William Stephen at ICI in London found that dyes with dichlorotriazinyl groups dyed cotton under mild alkaline conditions with no fibre degradation. For identification purposes, the results of systematic reaction sequences and solubility properties permit determination of the class of dye, which, in many cases, may be all that is required.

In contrast to leucoindigo, indigo has no affinity for cotton. With the Thermosol process, a pad-dry heat technique developed by the DuPont Company, temperatures of 180–220 °C (356–428 °F) are employed with contact times on the order of a minute. For years, the idea of achieving high wet fastness for dyed cotton by this method was recognized, but early attempts employed conditions so drastic that partial degradation of the fibres occurred. Alternatively, the fabric can be treated with a solution of the diazo component before diazotization, followed by immersion in a solution of the coupling component; this process was patented in 1887. classifications) not published in other parts of the Colour Index.

Dyes can be classified by chemical structure or by area and method of application because the chemical class does not generally restrict a given dye to a single coloristic group. Conversion of a soluble species to an insoluble dye after transfer to the fibre is the basis of vat dyeing, one of the ancient methods. This reduced form of indigo is called leuco-indigo and doesn't share indigo's deep blue color, but rather is a sorta pale green. generic names, each manufacturer can invent a trade name for a given colorant, and, consequently, there are more than 50,000 names of commercial colorants. In part 1, colorants are listed by generic name in classes (e.g., acidic, basic, mordant, disperse, direct, etc.) Reactive dyeing directly links the colorant to the fibre by formation of a covalent bond. With modern instrumentation, however, a variety of chromatographic and spectroscopic methods can be utilized to establish the full chemical structure of the dye, information that may be essential to identifying coloured material present in very small amounts. The third edition of the index lists more than 8,000 colorants used on a large scale for fibres, plastics, printing inks, paints, and liquids. These dyes can be generated directly on the fabric. At the German company Hoechst Aktiengesellschaft, a different approach had been under study, and in 1958 they introduced their Remazol dyes. 2) Dye Precursors in the Indigo Plant The main precursor in indigo plants is indican which is colourless, water-soluble, and stable, as well as being un-reactive to light and warm temperature.

generic name covers all colorants with the same structure, but these are not necessarily identical products in terms of crystal structure, particle size, or additive or impurity content. Indigo plants contain precursors of indigo dye, rather than indigo itself. These differences were exploited in the development of series of related reactive dyes. Fabrics made from blends of different fibres are common (65/35 and 50/50 PET/cotton, 40/40/20 PET/rayon/wool, etc. These are ingrain dyeing methods. The introduction of reactive dyeing not only provided a technique to overcome inadequacies of the traditional methods for dyeing cotton but also vastly increased the array of colours and dye types that could be used for cotton, since almost any chromogen can be converted to a reactive dye. The shift in color comes from a disruption of the double-bond conjugation between the two sides of the indigo molecule. The classical and commercial names for a specific colorant are included in the Colour Index. Hundreds of dyes were well known before the first edition of the Colour Index was published in 1924, and their original or classical names are still in wide use. Azo dyes are formed from an azoic diazo component and a coupling component. Reaction of a dye bearing an amino group with cyanuryl chloride links the two through nitrogen to form the reactive dye. While there are thousands of C.I. In contrast to dyes, pigments are practically insoluble in the application medium and have no affinity for the materials to which these are applied. The generation and subsequent bonding of these three new dyes (a yellow, a red, and a blue) with fibres has a common basis, namely, the reactivity of chlorine on a triazine ring. The transfer mechanism is unclear, but it appears that the fibres loosen slightly to permit dye entry and, on cooling, revert to the original tightly packed structure. Because many azo dyes are substituted anilines, they can be transformed to ingrain dyes for improved fastness after application as direct or, in some cases, disperse dyes to cotton and acetate rayon, respectively. Different dyes are required to colour the five major types of fibres, but the fact that thousands of dyes are in use may seem excessive. A key feature of cyanuryl chloride is the relative reactivity of the chlorines: only one chlorine reacts at 0–5 °C (32–41 °F), the second reacts at 35–50 °C (95–122 °F), and the third reacts at 80–85 °C (176–185 °F). Indigo is insoluble but is readily reduced to a soluble, colourless form, leucoindigo. Each C.I. Water-insoluble aggregates of indigo molecules larger than the fibre pores are firmly trapped within the fabric.

These synthetic fabrics are dyed by immersion in an aqueous dispersion of insoluble dyes, whereby the dye transfers into the fibre and forms a solid solution. Another edition of the Colour Index, Fourth Edition Online, contains information on pigments and solvent dyes (11,000 products under 800 C.I. Transfer into the fibre from a boiling dye bath is aided by carriers (e.g., benzyl alcohol or biphenyl). ), and there is enormous diversity in the intended end uses of the dyed fabrics. Commercial colorants include both dyes and pigments, groupings distinguishable by their mode of application. Offer an explanation as to why indigo is more colorful than leucoindigo that involves the types of conjugation in the two molecules. In many cases, the fabric is pretreated with metallic salts or mordants to improve the fastness and to vary the colour produced by a given dye (see above Natural dyes: Mordants). Other factors beyond the basic differences in the five types of fibre structures contribute to problems a dyer encounters. Studies at a Swiss dyeing company called Ciba in the 1920s gave promising results with wool using colorants having monochlorotriazine groups. Under these conditions, the dye is more soluble and the wettability of natural fibres is increased, improving the transport of dye molecules into the fabric. Part 2 provides the chemical structures and methods of manufacture, and part 3 lists manufacturers’ names and an index of the generic and commercial names. Dyeing at higher temperatures (120–130 °C [248–266 °F]) under pressure avoids the need for carriers.

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