Ismail Koyuncu
Istanbul Technical University
456 Papers
1.1K Citations
Ismail Koyuncu is an academic researcher from Istanbul Technical University. The author has contributed to research in topics: Membrane & Chemistry. The author has an hindex of 37, co-authored 342 publications. Previous affiliations of Ismail Koyuncu include Rice University & Afyon Kocatepe University.
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Papers
Brackish Water RO Concentrate Treatment and Water Recovery Using Cost Lowering Integrated Technology
TL;DR: In this paper , a cost-effective integrated technology for brackish water reverse osmosis concentrate stream was proposed, which consists of softening, ceramic MF/UF membrane and NF/RO membrane processes.
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Effects of Inositol Supplementation in Sperm Extender on the Quality of Cryopreserved Mesopotamian Catfish (Silurus triostegus, H. 1843) Sperm
TL;DR: In this paper, the effects of supplemented inositol on sperm extenders were examined on the sperm motility rate and duration, total antioxidant and oxidant status, apoptotic spermatozoa and DNA damage, during the sperm post-thaw process of Mesopotamian Catfish (Silurus triostegus, H. 1843).
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Bismuth Chelate‐Doped Microfiltration Membrane and Its Anti‐Biofouling Performance During a High‐Flux Membrane Bioreactor Operation
Borte Kose-Mutlu,Turker Turken,Serkan Guclu,Mehmet C. Guclu,Gamze Durmaz,Selin Okatan,Süleyman Övez,Ismail Koyuncu +7 more
TL;DR: In this paper, polyether sulfone (PES) membranes were prepared by adding bismuth 2,3-dimercapto-1-propanol (BisBAL) chelate to the dope solution for biofouling control.
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Zwitterionic Polysiloxane-Polyamide Hybrid Active Layer for High Performance and Chlorine Resistant TFC Desalination Membranes
Jalal-Al-Din Sharabati,Selda Erkoc-Ilter,Serkan Guclu,Derya Y. Koseoglu-Imer,Serkan Unal,Yusuf Z. Menceloğlu,Izzet Ozturk,Ismail Koyuncu +7 more
TL;DR: In this paper, a hybrid polysiloxane-polyamide thin-film composite (TFC) reverse osmosis (RO) membranes were produced in the presence of a zwitterionic silane compound during polyamide active layer preparation by interfacial polymerization for an enhanced desalination performance and chlorine resistance.
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Silencing of TP73-AS1 impairs prostate cancer cell proliferation and induces apoptosis via regulation of TP73
TL;DR: Novel evidence is provided that suggests a chief regulatory role for the TP73-TP73-AS1 axis in prostate cancer development and progression, suggesting that the TP 73/TP 73-AS2 axis can be a promising diagnostic and therapeutic target for prostate cancer.
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