KARAKAŞ, D. E. Et Al. 2023. Defatted spent coffee grounds-supported cobalt catalyst as a promising supercapacitor electrode for hydrogen production and energy storage. CLEAN TECHNOLOGIES AND ENVIRONMENTAL POLICY , vol.25, no.2 , 483-493.

KARAKAŞ, D. E., Akdemir, M., Atelge, M. R., KAYA, M., & MOHAMED ATABANI, A., (2023). Defatted spent coffee grounds-supported cobalt catalyst as a promising supercapacitor electrode for hydrogen production and energy storage. CLEAN TECHNOLOGIES AND ENVIRONMENTAL POLICY , vol.25, no.2, 483-493.

KARAKAŞ, DUYGU Et Al. "Defatted spent coffee grounds-supported cobalt catalyst as a promising supercapacitor electrode for hydrogen production and energy storage," CLEAN TECHNOLOGIES AND ENVIRONMENTAL POLICY , vol.25, no.2, 483-493, 2023

KARAKAŞ, DUYGU E. Et Al. "Defatted spent coffee grounds-supported cobalt catalyst as a promising supercapacitor electrode for hydrogen production and energy storage." CLEAN TECHNOLOGIES AND ENVIRONMENTAL POLICY , vol.25, no.2, pp.483-493, 2023

KARAKAŞ, D. E. Et Al. (2023) . "Defatted spent coffee grounds-supported cobalt catalyst as a promising supercapacitor electrode for hydrogen production and energy storage." CLEAN TECHNOLOGIES AND ENVIRONMENTAL POLICY , vol.25, no.2, pp.483-493.

@article{article, author={DUYGU ELMA KARAKAŞ Et Al. }, title={Defatted spent coffee grounds-supported cobalt catalyst as a promising supercapacitor electrode for hydrogen production and energy storage}, journal={CLEAN TECHNOLOGIES AND ENVIRONMENTAL POLICY}, year=2023, pages={483-493} }