Atıf Formatları
Tailoring of ZnFe2O4-ZrO2-based nanoarchitectures catalyst for supercapacitor electrode material and methanol oxidation reaction
  • IEEE
  • ACM
  • APA
  • Chicago
  • MLA
  • Harvard
  • BibTeX

W. Jinxi Et Al. , "Tailoring of ZnFe2O4-ZrO2-based nanoarchitectures catalyst for supercapacitor electrode material and methanol oxidation reaction," Fuel , vol.334, 2023

Jinxi, W. Et Al. 2023. Tailoring of ZnFe2O4-ZrO2-based nanoarchitectures catalyst for supercapacitor electrode material and methanol oxidation reaction. Fuel , vol.334 .

Jinxi, W., Aimin, W., Ghasemi, A. K., Lashkenari, M. S., Pashai, E., KARAMAN, C., ... Niculina, D. E.(2023). Tailoring of ZnFe2O4-ZrO2-based nanoarchitectures catalyst for supercapacitor electrode material and methanol oxidation reaction. Fuel , vol.334.

Jinxi, Wang Et Al. "Tailoring of ZnFe2O4-ZrO2-based nanoarchitectures catalyst for supercapacitor electrode material and methanol oxidation reaction," Fuel , vol.334, 2023

Jinxi, Wang Et Al. "Tailoring of ZnFe2O4-ZrO2-based nanoarchitectures catalyst for supercapacitor electrode material and methanol oxidation reaction." Fuel , vol.334, 2023

Jinxi, W. Et Al. (2023) . "Tailoring of ZnFe2O4-ZrO2-based nanoarchitectures catalyst for supercapacitor electrode material and methanol oxidation reaction." Fuel , vol.334.

@article{article, author={Wang Jinxi Et Al. }, title={Tailoring of ZnFe2O4-ZrO2-based nanoarchitectures catalyst for supercapacitor electrode material and methanol oxidation reaction}, journal={Fuel}, year=2023}