H. Ceylan Et Al. , "An approach for prediction of optimum reaction conditions for laccase-catalyzed bio-transformation of 1-naphthol by response surface methodology (RSM)," BIORESOURCE TECHNOLOGY , vol.99, no.6, pp.2025-2031, 2008
Ceylan, H. Et Al. 2008. An approach for prediction of optimum reaction conditions for laccase-catalyzed bio-transformation of 1-naphthol by response surface methodology (RSM). BIORESOURCE TECHNOLOGY , vol.99, no.6 , 2025-2031.
Ceylan, H., Kubilay, Ş., Aktaş, N., & ŞAHİNER, N., (2008). An approach for prediction of optimum reaction conditions for laccase-catalyzed bio-transformation of 1-naphthol by response surface methodology (RSM). BIORESOURCE TECHNOLOGY , vol.99, no.6, 2025-2031.
Ceylan, Hasan Et Al. "An approach for prediction of optimum reaction conditions for laccase-catalyzed bio-transformation of 1-naphthol by response surface methodology (RSM)," BIORESOURCE TECHNOLOGY , vol.99, no.6, 2025-2031, 2008
Ceylan, Hasan Et Al. "An approach for prediction of optimum reaction conditions for laccase-catalyzed bio-transformation of 1-naphthol by response surface methodology (RSM)." BIORESOURCE TECHNOLOGY , vol.99, no.6, pp.2025-2031, 2008
Ceylan, H. Et Al. (2008) . "An approach for prediction of optimum reaction conditions for laccase-catalyzed bio-transformation of 1-naphthol by response surface methodology (RSM)." BIORESOURCE TECHNOLOGY , vol.99, no.6, pp.2025-2031.
@article{article, author={Hasan Ceylan Et Al. }, title={An approach for prediction of optimum reaction conditions for laccase-catalyzed bio-transformation of 1-naphthol by response surface methodology (RSM)}, journal={BIORESOURCE TECHNOLOGY}, year=2008, pages={2025-2031} }