Özgür, Ç. Et Al. 2024. Engineering Oxygen Vacancies in (FeCrCoMnZn)3O4-δ High Entropy Spinel Oxides Through Altering Fabrication Atmosphere for High-Performance Rechargeable Zinc-Air Batteries. Global Challenges , vol.8, no.1 .

Özgür, Ç., Erdil, T., Geyikci, U., Okuyucu, C., Lökçü, E., Kalay, Y. E., ... Toparlı, Ç.(2024). Engineering Oxygen Vacancies in (FeCrCoMnZn)3O4-δ High Entropy Spinel Oxides Through Altering Fabrication Atmosphere for High-Performance Rechargeable Zinc-Air Batteries. Global Challenges , vol.8, no.1.

Özgür, ÇAĞLA Et Al. "Engineering Oxygen Vacancies in (FeCrCoMnZn)3O4-δ High Entropy Spinel Oxides Through Altering Fabrication Atmosphere for High-Performance Rechargeable Zinc-Air Batteries," Global Challenges , vol.8, no.1, 2024

Özgür, ÇAĞLA Et Al. "Engineering Oxygen Vacancies in (FeCrCoMnZn)3O4-δ High Entropy Spinel Oxides Through Altering Fabrication Atmosphere for High-Performance Rechargeable Zinc-Air Batteries." Global Challenges , vol.8, no.1, 2024

Özgür, Ç. Et Al. (2024) . "Engineering Oxygen Vacancies in (FeCrCoMnZn)3O4-δ High Entropy Spinel Oxides Through Altering Fabrication Atmosphere for High-Performance Rechargeable Zinc-Air Batteries." Global Challenges , vol.8, no.1.

@article{article, author={ÇAĞLA ÖZGÜR Et Al. }, title={Engineering Oxygen Vacancies in (FeCrCoMnZn)3O4-δ High Entropy Spinel Oxides Through Altering Fabrication Atmosphere for High-Performance Rechargeable Zinc-Air Batteries}, journal={Global Challenges}, year=2024}