M. U. Gurbuz Et Al. , "Cryptomelane nanorods coated with Ni ion doped Birnessite polymorphs as bifunctional efficient catalyst for the oxygen evolution reaction and degradation of organic contaminants," APPLIED ORGANOMETALLIC CHEMISTRY , vol.35, no.12, 2021
Gurbuz, M. U. Et Al. 2021. Cryptomelane nanorods coated with Ni ion doped Birnessite polymorphs as bifunctional efficient catalyst for the oxygen evolution reaction and degradation of organic contaminants. APPLIED ORGANOMETALLIC CHEMISTRY , vol.35, no.12 .
Gurbuz, M. U., ELMACI, G., Zhang, Y., Meng, X., & Erturk, A. S., (2021). Cryptomelane nanorods coated with Ni ion doped Birnessite polymorphs as bifunctional efficient catalyst for the oxygen evolution reaction and degradation of organic contaminants. APPLIED ORGANOMETALLIC CHEMISTRY , vol.35, no.12.
Gurbuz, Mustafa Et Al. "Cryptomelane nanorods coated with Ni ion doped Birnessite polymorphs as bifunctional efficient catalyst for the oxygen evolution reaction and degradation of organic contaminants," APPLIED ORGANOMETALLIC CHEMISTRY , vol.35, no.12, 2021
Gurbuz, Mustafa U. Et Al. "Cryptomelane nanorods coated with Ni ion doped Birnessite polymorphs as bifunctional efficient catalyst for the oxygen evolution reaction and degradation of organic contaminants." APPLIED ORGANOMETALLIC CHEMISTRY , vol.35, no.12, 2021
Gurbuz, M. U. Et Al. (2021) . "Cryptomelane nanorods coated with Ni ion doped Birnessite polymorphs as bifunctional efficient catalyst for the oxygen evolution reaction and degradation of organic contaminants." APPLIED ORGANOMETALLIC CHEMISTRY , vol.35, no.12.
@article{article, author={Mustafa Ulvi Gurbuz Et Al. }, title={Cryptomelane nanorods coated with Ni ion doped Birnessite polymorphs as bifunctional efficient catalyst for the oxygen evolution reaction and degradation of organic contaminants}, journal={APPLIED ORGANOMETALLIC CHEMISTRY}, year=2021}