S. Ozarslan Et Al. , "A double-functional carbon material as a supercapacitor electrode and hydrogen production: Cu-doped tea factory waste catalyst," JOURNAL OF MATERIALS SCIENCE-MATERIALS IN ELECTRONICS , vol.32, no.24, pp.28909-28918, 2021
Ozarslan, S. Et Al. 2021. A double-functional carbon material as a supercapacitor electrode and hydrogen production: Cu-doped tea factory waste catalyst. JOURNAL OF MATERIALS SCIENCE-MATERIALS IN ELECTRONICS , vol.32, no.24 , 28909-28918.
Ozarslan, S., Atelge, M. R., DEMİR KIVRAK, H., Horoz, S., Yavuz, C., Kaya, M., ... ÜNALAN, S.(2021). A double-functional carbon material as a supercapacitor electrode and hydrogen production: Cu-doped tea factory waste catalyst. JOURNAL OF MATERIALS SCIENCE-MATERIALS IN ELECTRONICS , vol.32, no.24, 28909-28918.
Ozarslan, S. Et Al. "A double-functional carbon material as a supercapacitor electrode and hydrogen production: Cu-doped tea factory waste catalyst," JOURNAL OF MATERIALS SCIENCE-MATERIALS IN ELECTRONICS , vol.32, no.24, 28909-28918, 2021
Ozarslan, S. Et Al. "A double-functional carbon material as a supercapacitor electrode and hydrogen production: Cu-doped tea factory waste catalyst." JOURNAL OF MATERIALS SCIENCE-MATERIALS IN ELECTRONICS , vol.32, no.24, pp.28909-28918, 2021
Ozarslan, S. Et Al. (2021) . "A double-functional carbon material as a supercapacitor electrode and hydrogen production: Cu-doped tea factory waste catalyst." JOURNAL OF MATERIALS SCIENCE-MATERIALS IN ELECTRONICS , vol.32, no.24, pp.28909-28918.
@article{article, author={S. Ozarslan Et Al. }, title={A double-functional carbon material as a supercapacitor electrode and hydrogen production: Cu-doped tea factory waste catalyst}, journal={JOURNAL OF MATERIALS SCIENCE-MATERIALS IN ELECTRONICS}, year=2021, pages={28909-28918} }