B. D. Karahan, "Carbon coated electric arc furnace dust prepared by one-pot pyrolysis: An efficient, low carbon footprint electrode material for lithium-ion batteries," MATERIALS CHEMISTRY AND PHYSICS , vol.287, 2022
Karahan, B. D. 2022. Carbon coated electric arc furnace dust prepared by one-pot pyrolysis: An efficient, low carbon footprint electrode material for lithium-ion batteries. MATERIALS CHEMISTRY AND PHYSICS , vol.287 .
Karahan, B. D., (2022). Carbon coated electric arc furnace dust prepared by one-pot pyrolysis: An efficient, low carbon footprint electrode material for lithium-ion batteries. MATERIALS CHEMISTRY AND PHYSICS , vol.287.
Karahan, Billur. "Carbon coated electric arc furnace dust prepared by one-pot pyrolysis: An efficient, low carbon footprint electrode material for lithium-ion batteries," MATERIALS CHEMISTRY AND PHYSICS , vol.287, 2022
Karahan, Billur D. . "Carbon coated electric arc furnace dust prepared by one-pot pyrolysis: An efficient, low carbon footprint electrode material for lithium-ion batteries." MATERIALS CHEMISTRY AND PHYSICS , vol.287, 2022
Karahan, B. D. (2022) . "Carbon coated electric arc furnace dust prepared by one-pot pyrolysis: An efficient, low carbon footprint electrode material for lithium-ion batteries." MATERIALS CHEMISTRY AND PHYSICS , vol.287.
@article{article, author={Billur Deniz Karahan}, title={Carbon coated electric arc furnace dust prepared by one-pot pyrolysis: An efficient, low carbon footprint electrode material for lithium-ion batteries}, journal={MATERIALS CHEMISTRY AND PHYSICS}, year=2022}