V. Vatanpour Et Al. , "Novel infinite coordination polymer (ICP) modified thin-film polyamide nanocomposite membranes for simultaneous enhancement of antifouling and chlorine-resistance performance," Journal of Membrane Science , vol.647, 2022
Vatanpour, V. Et Al. 2022. Novel infinite coordination polymer (ICP) modified thin-film polyamide nanocomposite membranes for simultaneous enhancement of antifouling and chlorine-resistance performance. Journal of Membrane Science , vol.647 .
Vatanpour, V., Iranpour Boroujeni, N., Paşaoğlu, M. E., Mahmodi, G., Mohammadikish, M., Kazemi-Andalib, F., ... Koyuncu, İ.(2022). Novel infinite coordination polymer (ICP) modified thin-film polyamide nanocomposite membranes for simultaneous enhancement of antifouling and chlorine-resistance performance. Journal of Membrane Science , vol.647.
Vatanpour, Vahıd Et Al. "Novel infinite coordination polymer (ICP) modified thin-film polyamide nanocomposite membranes for simultaneous enhancement of antifouling and chlorine-resistance performance," Journal of Membrane Science , vol.647, 2022
Vatanpour, Vahıd V. Et Al. "Novel infinite coordination polymer (ICP) modified thin-film polyamide nanocomposite membranes for simultaneous enhancement of antifouling and chlorine-resistance performance." Journal of Membrane Science , vol.647, 2022
Vatanpour, V. Et Al. (2022) . "Novel infinite coordination polymer (ICP) modified thin-film polyamide nanocomposite membranes for simultaneous enhancement of antifouling and chlorine-resistance performance." Journal of Membrane Science , vol.647.
@article{article, author={Vahıd Vatanpour Sargheın Et Al. }, title={Novel infinite coordination polymer (ICP) modified thin-film polyamide nanocomposite membranes for simultaneous enhancement of antifouling and chlorine-resistance performance}, journal={Journal of Membrane Science}, year=2022}