S. C. SUNER Et Al. , "Thiourea-Isocyanate-Based Covalent Organic Frameworks with Tunable Surface Charge and Surface Area for Methylene Blue and Methyl Orange Removal from Aqueous Media," Micromachines , vol.13, no.6, 2022
SUNER, S. C. Et Al. 2022. Thiourea-Isocyanate-Based Covalent Organic Frameworks with Tunable Surface Charge and Surface Area for Methylene Blue and Methyl Orange Removal from Aqueous Media. Micromachines , vol.13, no.6 .
SUNER, S. C., Demirci, S., SÜTEKİN, S. D., YILMAZ, S., & ŞAHİNER, N., (2022). Thiourea-Isocyanate-Based Covalent Organic Frameworks with Tunable Surface Charge and Surface Area for Methylene Blue and Methyl Orange Removal from Aqueous Media. Micromachines , vol.13, no.6.
SUNER, SALİH Et Al. "Thiourea-Isocyanate-Based Covalent Organic Frameworks with Tunable Surface Charge and Surface Area for Methylene Blue and Methyl Orange Removal from Aqueous Media," Micromachines , vol.13, no.6, 2022
SUNER, SALİH C. Et Al. "Thiourea-Isocyanate-Based Covalent Organic Frameworks with Tunable Surface Charge and Surface Area for Methylene Blue and Methyl Orange Removal from Aqueous Media." Micromachines , vol.13, no.6, 2022
SUNER, S. C. Et Al. (2022) . "Thiourea-Isocyanate-Based Covalent Organic Frameworks with Tunable Surface Charge and Surface Area for Methylene Blue and Methyl Orange Removal from Aqueous Media." Micromachines , vol.13, no.6.
@article{article, author={SALİH CAN SUNER Et Al. }, title={Thiourea-Isocyanate-Based Covalent Organic Frameworks with Tunable Surface Charge and Surface Area for Methylene Blue and Methyl Orange Removal from Aqueous Media}, journal={Micromachines}, year=2022}