E. KABAKCI Et Al. , "3D printed structured catalyst supports for enhanced CO2 methanation," JOURNAL OF ENVIRONMENTAL CHEMICAL ENGINEERING , vol.13, 2025
KABAKCI, E. Et Al. 2025. 3D printed structured catalyst supports for enhanced CO2 methanation. JOURNAL OF ENVIRONMENTAL CHEMICAL ENGINEERING , vol.13 .
KABAKCI, E., Kostretsova, N., Martín Morales, E., Diaz-Ruiz, J., Tarancón, A., Guilera, J., ... Torrell, M.(2025). 3D printed structured catalyst supports for enhanced CO2 methanation. JOURNAL OF ENVIRONMENTAL CHEMICAL ENGINEERING , vol.13.
KABAKCI, ELİF Et Al. "3D printed structured catalyst supports for enhanced CO2 methanation," JOURNAL OF ENVIRONMENTAL CHEMICAL ENGINEERING , vol.13, 2025
KABAKCI, ELİF Et Al. "3D printed structured catalyst supports for enhanced CO2 methanation." JOURNAL OF ENVIRONMENTAL CHEMICAL ENGINEERING , vol.13, 2025
KABAKCI, E. Et Al. (2025) . "3D printed structured catalyst supports for enhanced CO2 methanation." JOURNAL OF ENVIRONMENTAL CHEMICAL ENGINEERING , vol.13.
@article{article, author={ELİF KABAKCI Et Al. }, title={3D printed structured catalyst supports for enhanced CO2 methanation}, journal={JOURNAL OF ENVIRONMENTAL CHEMICAL ENGINEERING}, year=2025}