F. Geyikçi Et Al. , "Development of Experimental Results by Artificial Neural Network Model for Adsorption of Cu2+ Using Single Wall Carbon Nanotubes," SEPARATION SCIENCE AND TECHNOLOGY , vol.48, no.10, pp.1490-1499, 2013
Geyikçi, F. Et Al. 2013. Development of Experimental Results by Artificial Neural Network Model for Adsorption of Cu2+ Using Single Wall Carbon Nanotubes. SEPARATION SCIENCE AND TECHNOLOGY , vol.48, no.10 , 1490-1499.
Geyikçi, F., Çoruh, S., & Kılıç, E., (2013). Development of Experimental Results by Artificial Neural Network Model for Adsorption of Cu2+ Using Single Wall Carbon Nanotubes. SEPARATION SCIENCE AND TECHNOLOGY , vol.48, no.10, 1490-1499.
Geyikçi, Feza, Semra Çoruh, And Erdal Kılıç. "Development of Experimental Results by Artificial Neural Network Model for Adsorption of Cu2+ Using Single Wall Carbon Nanotubes," SEPARATION SCIENCE AND TECHNOLOGY , vol.48, no.10, 1490-1499, 2013
Geyikçi, Feza Et Al. "Development of Experimental Results by Artificial Neural Network Model for Adsorption of Cu2+ Using Single Wall Carbon Nanotubes." SEPARATION SCIENCE AND TECHNOLOGY , vol.48, no.10, pp.1490-1499, 2013
Geyikçi, F. Çoruh, S. And Kılıç, E. (2013) . "Development of Experimental Results by Artificial Neural Network Model for Adsorption of Cu2+ Using Single Wall Carbon Nanotubes." SEPARATION SCIENCE AND TECHNOLOGY , vol.48, no.10, pp.1490-1499.
@article{article, author={Feza Geyikçi Et Al. }, title={Development of Experimental Results by Artificial Neural Network Model for Adsorption of Cu2+ Using Single Wall Carbon Nanotubes}, journal={SEPARATION SCIENCE AND TECHNOLOGY}, year=2013, pages={1490-1499} }