Physicochemical aspects of dyeing with polyaniline are considered. It is shown to be possible to attain the first percolation threshold for electrically conducting polyamide fabric. An equation has been obtained for estimating the thermodynamic affinity of the dye for the fiber.
Similar content being viewed by others
References
R. M. Levit, Electrically Conducting Chemical Fibers [in Russian], Khimiya, Moscow (1986).
A. G. MacDiarmid, “Synthetic metals: A novel role for organic polymers,” Nobel Lectures, Chemistry 1996–2000, World Scientific Publishing Co., Singapore (2003), p. 427.
M. J. Diaz-de Leon, “Electrospinning nanofibers of polyaniline and polyaniline (polystyrene and polyethylene oxide) blends,” Proceedings of the National Conference on Undergraduate Research (NCUR) 2001, University of Kentucky, March 15–17 (2001).
O. I. Aksiment'eva, Electrochemical Synthesis Methods and the Conductivity of Fibrous Polymers [in Ukrainian], Svit, L'viv (1998).
V. G. Shaposhnikov, The General Technology of Fibrous Substances and Dyes [in Russian], Izd. Vsesoyuzn. Tekst. Sindikata, Kiev (1912).
B. N. Melytskov and P. V. Moryganov, Theory and Practice of Accelerating Dyeing Processes [in Russian], Legkaya Industriya, Moscow (1969).
B. N. Melytskov and I. B. Blinicheva, Theoretical Principles of Dyeing Fibrous Materials [in Russian], Legkaya Industriya, Moscow (1978).
G. E. Krichevskii, Chemical Technology of Textile Materials, Vol. 2 [in Russian], Russian Extramural Institute for Textiles and Light Industry, Moscow (2001).
G. E. Krichevskii, Diffusion and Sorption in Dyeing and Printing [in Russian], Legkaya Industriya, Moscow (1981).
R. H. Peters, Textile Chemistry, Vol. III, The Physical Chemistry of Dyeing, Elsevier Sci. Publ. Co., Amsterdam, Oxford, and New York (1975).
O. V. Romankevich, “The absorption isotherm in the formation of sorbate-polymer solvates,” Dop. NAN Ukraini, No. 4, 148–151 (2006). 12. A. A. Tager, Polymer Physical Chemistry [in Russian], Khimiya, Moscow (1968).
A. A. Tager, Polymer Physical Chemistry [in Russian], Khimiya, Moscow (1968).
Ya. I. Gerasimov, V. P. Dreving, et al., Textbook of Physical Chemistry, Vol. 1 [in Russian], Goskhimizdat, Moscow (1963).
Yu. G. Frolov, Textbook of Colloid Chemistry: Surface Phenomena and Dispersed Systems [in Russian], Khimiya, Moscow (1988).
V. I. Klenin, Thermodynamics of Systems Containing Flexible-Chain Polymers [in Russian], Izd. CGU, Saratov (1995).
A. L. Efros, Disorder Physics and Geometry [in Russian], Nauka, Moscow (1982).
J. Feder, Fractals, Plenum Press, New York and London (1988).
E. P. Mamunya, Structure and Properties of Polymeric Composites Containing Electrically Conducting Fillers: PhD Thesis, 01.04.19 [in Russian], Kiev (2003).
A. J. Hailwood and S. Horrobin, Trans. Farad. Soc., 42B, No. 1, 84–92 (1946).
H. Yasuda and V. Stannett, J. Polymer Sci., 57, 907–923 (1962).
C. Rogers, Physics and Chemistry of Organic Solid State, Vol. 2, Intersc. Publ., New York, London, and Sydney (1965).
S. P. Papkov and E. Z. Fainberg, The Interactions of Cellulose and Cellulose Materials With Water [in Russian], Khimiya, Moscow (1976).
J. Fusec, “The vitrification temperatures of moist polymers: Measurement and significance of this characteristic,” in: Water in Polymers (edited by Rouland ) [Russian translation], ACS, Washington (1988).
A. V. Lykov, Drying Theory [in Russian], Energiya, Moscow (1968).
A. P. Karnaukhov, Adsorption: Textures in Dispersed and Porous Materials [in Russian], Nauka, Sib. Otd. RAN, Novosibirsk (1999).
Author information
Authors and Affiliations
Additional information
Translated from Khimicheskie Volokna, No. 4, pp. 49–52, July–August, 2008.
Rights and permissions
About this article
Cite this article
Romankevich, O.V., Red’ko, Y.V. & Romankevich, Y.O. Dyeing with polyaniline synthesis in fibers. Fibre Chem 40, 349–354 (2008). https://doi.org/10.1007/s10692-009-9066-5
Published:
Issue Date:
DOI: https://doi.org/10.1007/s10692-009-9066-5