B. D. Karahan, "Rational fabrication of low carbon foot-print electrode materials for lithium-ion batteries from electric arc furnace dust via integrated hydrometallurgical process," Materials Chemistry and Physics , vol.302, 2023
Karahan, B. D. 2023. Rational fabrication of low carbon foot-print electrode materials for lithium-ion batteries from electric arc furnace dust via integrated hydrometallurgical process. Materials Chemistry and Physics , vol.302 .
Karahan, B. D., (2023). Rational fabrication of low carbon foot-print electrode materials for lithium-ion batteries from electric arc furnace dust via integrated hydrometallurgical process. Materials Chemistry and Physics , vol.302.
Karahan, Billur. "Rational fabrication of low carbon foot-print electrode materials for lithium-ion batteries from electric arc furnace dust via integrated hydrometallurgical process," Materials Chemistry and Physics , vol.302, 2023
Karahan, Billur D. . "Rational fabrication of low carbon foot-print electrode materials for lithium-ion batteries from electric arc furnace dust via integrated hydrometallurgical process." Materials Chemistry and Physics , vol.302, 2023
Karahan, B. D. (2023) . "Rational fabrication of low carbon foot-print electrode materials for lithium-ion batteries from electric arc furnace dust via integrated hydrometallurgical process." Materials Chemistry and Physics , vol.302.
@article{article, author={Billur Deniz Karahan}, title={Rational fabrication of low carbon foot-print electrode materials for lithium-ion batteries from electric arc furnace dust via integrated hydrometallurgical process}, journal={Materials Chemistry and Physics}, year=2023}