F. E. Kutlar Et Al. , "Carbon-based conductive materials enhance biomethane recovery from organic wastes: A review of the impacts on anaerobic treatment," CHEMOSPHERE , vol.290, 2022
Kutlar, F. E. Et Al. 2022. Carbon-based conductive materials enhance biomethane recovery from organic wastes: A review of the impacts on anaerobic treatment. CHEMOSPHERE , vol.290 .
Kutlar, F. E., Tunca, B., & Yılmazel Tokel, Y. D., (2022). Carbon-based conductive materials enhance biomethane recovery from organic wastes: A review of the impacts on anaerobic treatment. CHEMOSPHERE , vol.290.
Kutlar, Feride, Berivan Tunca, And YASEMİN DİLŞAD YILMAZEL TOKEL. "Carbon-based conductive materials enhance biomethane recovery from organic wastes: A review of the impacts on anaerobic treatment," CHEMOSPHERE , vol.290, 2022
Kutlar, Feride E. Et Al. "Carbon-based conductive materials enhance biomethane recovery from organic wastes: A review of the impacts on anaerobic treatment." CHEMOSPHERE , vol.290, 2022
Kutlar, F. E. Tunca, B. And Yılmazel Tokel, Y. D. (2022) . "Carbon-based conductive materials enhance biomethane recovery from organic wastes: A review of the impacts on anaerobic treatment." CHEMOSPHERE , vol.290.
@article{article, author={Feride Ece Kutlar Et Al. }, title={Carbon-based conductive materials enhance biomethane recovery from organic wastes: A review of the impacts on anaerobic treatment}, journal={CHEMOSPHERE}, year=2022}