Caglar, A. Et Al. 2018. A novel Central Composite Design based response surface methodology optimization study for the synthesis of Pd/CNT direct formic acid fuel cell anode catalyst. International Journal of Hydrogen Energy , vol.43, no.24 , 11002-11011.

Caglar, A., Şahan, T., Cogenli, M. S., BAYRAKÇEKEN YURTCAN, A., Aktaş, N., & Kivrak, H., (2018). A novel Central Composite Design based response surface methodology optimization study for the synthesis of Pd/CNT direct formic acid fuel cell anode catalyst. International Journal of Hydrogen Energy , vol.43, no.24, 11002-11011.

Caglar, Aykut Et Al. "A novel Central Composite Design based response surface methodology optimization study for the synthesis of Pd/CNT direct formic acid fuel cell anode catalyst," International Journal of Hydrogen Energy , vol.43, no.24, 11002-11011, 2018

Caglar, Aykut Et Al. "A novel Central Composite Design based response surface methodology optimization study for the synthesis of Pd/CNT direct formic acid fuel cell anode catalyst." International Journal of Hydrogen Energy , vol.43, no.24, pp.11002-11011, 2018

Caglar, A. Et Al. (2018) . "A novel Central Composite Design based response surface methodology optimization study for the synthesis of Pd/CNT direct formic acid fuel cell anode catalyst." International Journal of Hydrogen Energy , vol.43, no.24, pp.11002-11011.

@article{article, author={Aykut Caglar Et Al. }, title={A novel Central Composite Design based response surface methodology optimization study for the synthesis of Pd/CNT direct formic acid fuel cell anode catalyst}, journal={International Journal of Hydrogen Energy}, year=2018, pages={11002-11011} }