KARAMAN, C. Et Al. 2021. Sustainable electrode material for high-energy supercapacitor: biomass-derived graphene-like porous carbon with three-dimensional hierarchically ordered ion highways. PHYSICAL CHEMISTRY CHEMICAL PHYSICS , vol.23, no.22 , 12807-12821.

KARAMAN, C., KARAMAN, O., ATAR, N., & Yola, M. L., (2021). Sustainable electrode material for high-energy supercapacitor: biomass-derived graphene-like porous carbon with three-dimensional hierarchically ordered ion highways. PHYSICAL CHEMISTRY CHEMICAL PHYSICS , vol.23, no.22, 12807-12821.

KARAMAN, CEREN Et Al. "Sustainable electrode material for high-energy supercapacitor: biomass-derived graphene-like porous carbon with three-dimensional hierarchically ordered ion highways," PHYSICAL CHEMISTRY CHEMICAL PHYSICS , vol.23, no.22, 12807-12821, 2021

KARAMAN, CEREN Et Al. "Sustainable electrode material for high-energy supercapacitor: biomass-derived graphene-like porous carbon with three-dimensional hierarchically ordered ion highways." PHYSICAL CHEMISTRY CHEMICAL PHYSICS , vol.23, no.22, pp.12807-12821, 2021

KARAMAN, C. Et Al. (2021) . "Sustainable electrode material for high-energy supercapacitor: biomass-derived graphene-like porous carbon with three-dimensional hierarchically ordered ion highways." PHYSICAL CHEMISTRY CHEMICAL PHYSICS , vol.23, no.22, pp.12807-12821.

@article{article, author={CEREN KARAMAN Et Al. }, title={Sustainable electrode material for high-energy supercapacitor: biomass-derived graphene-like porous carbon with three-dimensional hierarchically ordered ion highways}, journal={PHYSICAL CHEMISTRY CHEMICAL PHYSICS}, year=2021, pages={12807-12821} }