J. Sharabati Et Al. , "Zwitterionic polysiloxane-polyamide hybrid active layer for high performance and chlorine resistant TFC desalination membranes," SEPARATION AND PURIFICATION TECHNOLOGY , vol.282, 2022
Sharabati, J. Et Al. 2022. Zwitterionic polysiloxane-polyamide hybrid active layer for high performance and chlorine resistant TFC desalination membranes. SEPARATION AND PURIFICATION TECHNOLOGY , vol.282 .
Sharabati, J., Erkoc-Ilter, S., Guclu, S., Koseoglu-Imer, D. Y., Unal, S., Menceloglu, Y. Z., ... Ozturk, I.(2022). Zwitterionic polysiloxane-polyamide hybrid active layer for high performance and chlorine resistant TFC desalination membranes. SEPARATION AND PURIFICATION TECHNOLOGY , vol.282.
Sharabati, J-A-D Et Al. "Zwitterionic polysiloxane-polyamide hybrid active layer for high performance and chlorine resistant TFC desalination membranes," SEPARATION AND PURIFICATION TECHNOLOGY , vol.282, 2022
Sharabati, J-A-D Et Al. "Zwitterionic polysiloxane-polyamide hybrid active layer for high performance and chlorine resistant TFC desalination membranes." SEPARATION AND PURIFICATION TECHNOLOGY , vol.282, 2022
Sharabati, J. Et Al. (2022) . "Zwitterionic polysiloxane-polyamide hybrid active layer for high performance and chlorine resistant TFC desalination membranes." SEPARATION AND PURIFICATION TECHNOLOGY , vol.282.
@article{article, author={J-A-D Sharabati Et Al. }, title={Zwitterionic polysiloxane-polyamide hybrid active layer for high performance and chlorine resistant TFC desalination membranes}, journal={SEPARATION AND PURIFICATION TECHNOLOGY}, year=2022}