S. Demirci Et Al. , "Amine-modified halloysite nanotube embedded PEI cryogels as adsorbent nanoarchitectonics for recovery of valuable phenolic compounds from olive mill wastewater," Applied Clay Science , vol.249, 2024
Demirci, S. Et Al. 2024. Amine-modified halloysite nanotube embedded PEI cryogels as adsorbent nanoarchitectonics for recovery of valuable phenolic compounds from olive mill wastewater. Applied Clay Science , vol.249 .
Demirci, S., Suner, S. S., YILMAZ, S., Bagdat, S., Tokay, F., & ŞAHİNER, N., (2024). Amine-modified halloysite nanotube embedded PEI cryogels as adsorbent nanoarchitectonics for recovery of valuable phenolic compounds from olive mill wastewater. Applied Clay Science , vol.249.
Demirci, Sahin Et Al. "Amine-modified halloysite nanotube embedded PEI cryogels as adsorbent nanoarchitectonics for recovery of valuable phenolic compounds from olive mill wastewater," Applied Clay Science , vol.249, 2024
Demirci, Sahin Et Al. "Amine-modified halloysite nanotube embedded PEI cryogels as adsorbent nanoarchitectonics for recovery of valuable phenolic compounds from olive mill wastewater." Applied Clay Science , vol.249, 2024
Demirci, S. Et Al. (2024) . "Amine-modified halloysite nanotube embedded PEI cryogels as adsorbent nanoarchitectonics for recovery of valuable phenolic compounds from olive mill wastewater." Applied Clay Science , vol.249.
@article{article, author={Sahin Demirci Et Al. }, title={Amine-modified halloysite nanotube embedded PEI cryogels as adsorbent nanoarchitectonics for recovery of valuable phenolic compounds from olive mill wastewater}, journal={Applied Clay Science}, year=2024}