G. Bayramoglu Et Al. , "Polyaniline grafted polyacylonitrile conductive composite fibers for reversible immobilization of enzymes: Stability and catalytic properties of invertase," PROCESS BIOCHEMISTRY , vol.44, no.8, pp.880-885, 2009
Bayramoglu, G. Et Al. 2009. Polyaniline grafted polyacylonitrile conductive composite fibers for reversible immobilization of enzymes: Stability and catalytic properties of invertase. PROCESS BIOCHEMISTRY , vol.44, no.8 , 880-885.
Bayramoglu, G., Karakisla, M., Altintas, B., Metin, A. U., SAÇAK, M., & Arica, M. Y., (2009). Polyaniline grafted polyacylonitrile conductive composite fibers for reversible immobilization of enzymes: Stability and catalytic properties of invertase. PROCESS BIOCHEMISTRY , vol.44, no.8, 880-885.
Bayramoglu, Guelay Et Al. "Polyaniline grafted polyacylonitrile conductive composite fibers for reversible immobilization of enzymes: Stability and catalytic properties of invertase," PROCESS BIOCHEMISTRY , vol.44, no.8, 880-885, 2009
Bayramoglu, Guelay Et Al. "Polyaniline grafted polyacylonitrile conductive composite fibers for reversible immobilization of enzymes: Stability and catalytic properties of invertase." PROCESS BIOCHEMISTRY , vol.44, no.8, pp.880-885, 2009
Bayramoglu, G. Et Al. (2009) . "Polyaniline grafted polyacylonitrile conductive composite fibers for reversible immobilization of enzymes: Stability and catalytic properties of invertase." PROCESS BIOCHEMISTRY , vol.44, no.8, pp.880-885.
@article{article, author={Guelay Bayramoglu Et Al. }, title={Polyaniline grafted polyacylonitrile conductive composite fibers for reversible immobilization of enzymes: Stability and catalytic properties of invertase}, journal={PROCESS BIOCHEMISTRY}, year=2009, pages={880-885} }