Copper Nanopartical Composites Based on Cellulose Derivatives

Authors: 

Olga Alekseeva, Svetlana Chulovskaya, Nadezhda Bagrovskaya and Vladimir Parfenyuk

Polymer hydroxyethylcellulose matrix modification was made by mechanochemical method using copper containing nanoparticles, obtained by electrochemical reduction from copper sulphate solutions in water- ethanol medium. Interactions of copper containing nanoparticles with hydroxyethylcellulose were studies. Antimicrobial effect of the nanocomposites obtained was found.

[1] Lysenko A., Astashkina O., Sverdlova N. et al.: Chem. Fibers, 2007, 2, 44.
[2] Lawecka M., Kopcewicz M., Slawska-Waniewska A. et al.: J. Nanoparticle Res., 2003, 5, 373.
[3] Ozerin A., Zelenetskii A., Akopova T. et al.: Polym. Sci. A, 2006, 48, 638.
[4] Ramos J., Millan A. and Palacio F.: Polymer, 2000, 41, 8461.
[5] You T., Niwa O., Tomita M. et al.: Electrochem. Commun., 2002, 4, 468.
[6] Mahapatra O., Bhagat M., Gopalakrishnan B. and Arunachalam K.: J. Exp. Nanosci., 2008, 3, 185.
[7] Elinson V., Sleptsov V., Potraysay V. and Laymin A.: Biomedical Properties of Nanostructured Surfaces Formed by Ion-Plasma Methods. NATO, Science Series, Cluver Publisher, USA 2004. 
[8] Сhulovskaya S., Balmasov A., Lilin S. and Parfenyuk V.: Protection of Metals, 2006, 42, 394.
[9] Sinha A., Das S., Kumar T. et al.: Mat. Synth. Proc., 1999, 7, 373.
[10] Chulovskaya S. and Parfenyuk V.: Rus. J. Appl. Chem., 2007, 80, 952. 
[11] Pomogailo A., Rozenberg A. and Uflyand I.: Nanochastitsy Metallov v Polymerakh. Khimiya, Moskwa 2000.
[12] Maharapatra O., Bhagat M., Gopalakrishnan C. and Arunachalam K.: J. Exp. Nanosci., 2008, 3, 185.
[13] Mirkin L.: Spravochnik po Rentgenostrukturnomu Analizu Polikristallov. Fizmatizdat, Moskwa 1961.
[14] Blackwell J. and Marchessault R.: [in:] Bikales N. and Segal L. (Eds.) Cellulose and Cellulose Derivatives. Wiley-Interscience, New York 1971.
[15] Smith A.: Applied Infrared Spectroscopy. Fundamentals, Techniques and Analytical Problem-Solving. Wiley, New York 1979.