DABAGH, S. Et Al. 2024. Electrosprayed MnFe2O4/PVDF membrane integrated microfluidic chip for amoxicillin removal with real-time monitoring of pH and dissolved oxygen. Journal of Environmental Chemical Engineering , vol.12, no.6 .

DABAGH, S., Javanifar, R., KAYA, M. D., EBRAHIMI, A., GÜVEN, S., KAYA, B. M., ... ESENTÜRK, O.(2024). Electrosprayed MnFe2O4/PVDF membrane integrated microfluidic chip for amoxicillin removal with real-time monitoring of pH and dissolved oxygen. Journal of Environmental Chemical Engineering , vol.12, no.6.

DABAGH, SHADAB Et Al. "Electrosprayed MnFe2O4/PVDF membrane integrated microfluidic chip for amoxicillin removal with real-time monitoring of pH and dissolved oxygen," Journal of Environmental Chemical Engineering , vol.12, no.6, 2024

DABAGH, SHADAB Et Al. "Electrosprayed MnFe2O4/PVDF membrane integrated microfluidic chip for amoxicillin removal with real-time monitoring of pH and dissolved oxygen." Journal of Environmental Chemical Engineering , vol.12, no.6, 2024

DABAGH, S. Et Al. (2024) . "Electrosprayed MnFe2O4/PVDF membrane integrated microfluidic chip for amoxicillin removal with real-time monitoring of pH and dissolved oxygen." Journal of Environmental Chemical Engineering , vol.12, no.6.

@article{article, author={SHADAB DABAGH Et Al. }, title={Electrosprayed MnFe2O4/PVDF membrane integrated microfluidic chip for amoxicillin removal with real-time monitoring of pH and dissolved oxygen}, journal={Journal of Environmental Chemical Engineering}, year=2024}