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Mordant


A mordant or dye fixative is a substance used to set (i.e. bind) dyes on fabrics by forming a coordination complex with the dye, which then attaches to the fabric (or tissue).[1] It may be used for dyeing fabrics or for intensifying stains in cell or tissue preparations. Although mordants are still used, especially by small batch dyers, it has been largely displaced in industry by directs.[2]

The term mordant comes from the Latin mordere, "to bite". In the past, it was thought that a mordant helped the dye bite onto the fiber so that it would hold fast during washing. A mordant is often a polyvalent metal ion, often chromium(III).[3] The resulting coordination complex of dye and ion is colloidal and can be either acidic or alkaline.

Contents

Common dye mordants


Mordants include tannic acid, alum, chrome alum, sodium chloride, and certain salts of aluminium, chromium, copper, iron, iodine, potassium, sodium, tungsten, and tin. KAl(SO4)2 12 H2O

Iodine is often referred to as a mordant in Gram stains, but is in fact a trapping agent.[3]

Dyeing methods


The three methods used for mordanting are:

The type of mordant used affects the shade obtained after dyeing and also affects the fastness property of the dye. The application of mordant, either pre-mordant, meta-mordant or post-mordant methods, is influenced by:

Dye results can also rely on the mordant chosen as the introduction of the mordant into the dye will have a marked effect on the final color. Each dye can have different reactions to each mordant. For example, cochineal scarlet, or Dutch scarlet as it came to be known, used cochineal along with a tin mordant to create a brilliant orange-hued red.[4]

Residual iron mordant can damage or fade fabric, producing "dye rot".[5]

Dye lake

The dye lake is an insoluble complex formed upon combining the dye and mordant, which then attaches to the substrate. Mordants increase the fastness of the dye since the higher molecular weight dye is now bonded to the fibre.[3]

The type of mordant used can change the colour of both the dye-plus-mordant solution and influence the shade of the final product.

Wool

Unlike cotton, wool is highly receptive toward mordants. Due to its amphoteric nature wool can absorb acids and bases with equal efficiency. When wool is treated with a metallic salt it hydrolyses the salt into an acidic and basic component. The basic component is absorbed at –COOH group and the acidic component is removed during washing. Wool also has a tendency to absorb fine precipitates from solutions; these cling to the surface of fibres and dye particles attached to these contaminants result in poor rubbing fastness.

Silk

Like wool, silk is also amphoteric and can absorb both acids and bases. However, wool has thio groups (-SH) from the cystine amino acid, which act as reducing agent and can reduce hexavalent chromium of potassium dichromate to trivalent form. The trivalent chromium forms the complex with the fibre and dye. Therefore, potassium dichromate cannot be used effectively as mordant.

Animal and plant tissues

In histology, mordants are indispensable in fixing dyes to tissues for microscopic examination.

Methods for mordant application depend on the desired stain and tissues under study; pre-, meta- and post-mordanting techniques are used as required.

The most commonly used stain used in diagnostic histology of animal tissues is Harris' haematoxylin as part of a haematoxylin and eosin (H&E) stain.

References


  1. ^ IUPAC, Compendium of Chemical Terminology, 2nd ed. (the "Gold Book") (1997). Online corrected version:  (2006–) "mordant ". doi:10.1351/goldbook.M04029
  2. ^ Klaus Hunger, Peter Mischke, Wolfgang Rieper, Roderich Raue, Klaus Kunde, Aloys Engel: "Azo Dyes" in Ullmann’s Encyclopedia of Industrial Chemistry, 2005, Wiley-VCH, Weinheim.doi:10.1002/14356007.a03_245 .
  3. ^ a b c Llewellyn, Bryan D. (May 2005). "Stain Theory – How mordants work" . Archived from the original on August 14, 2007.
  4. ^ Phipps, Elena (2010). Cochineal Red The Art History of a Color, p34. Yale University Press, New Haven and London. ISBN 978-0-300-15513-6.
  5. ^ [1]

Further reading


External links









Categories: Dyes | Printing | Printmaking | Electronics manufacturing




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