Adsorption of organic contaminants by graphene nanosheets: A review G Ersan, OG Apul, F Perreault, T Karanfil Water research 126, 385-398, 2017 | 428 | 2017 |
The overlooked short-and ultrashort-chain poly-and perfluorinated substances: A review M Ateia, A Maroli, N Tharayil, T Karanfil Chemosphere 220, 866-882, 2019 | 389 | 2019 |
Role of granular activated carbon surface chemistry on the adsorption of organic compounds. 1. Priority pollutants T Karanfil, JE Kilduff Environmental science & technology 33 (18), 3217-3224, 1999 | 361 | 1999 |
Adsorption of aromatic organic contaminants by graphene nanosheets: Comparison with carbon nanotubes and activated carbon OG Apul, Q Wang, Y Zhou, T Karanfil Water research 47 (4), 1648-1654, 2013 | 356 | 2013 |
Adsorption of synthetic organic contaminants by carbon nanotubes: a critical review OG Apul, T Karanfil Water research 68, 34-55, 2015 | 336 | 2015 |
Probing reactivity of dissolved organic matter for disinfection by-product formation using XAD-8 resin adsorption and ultrafiltration fractionation M Kitis, T Karanfil, A Wigton, JE Kilduff Water research 36 (15), 3834-3848, 2002 | 336 | 2002 |
Tailoring activated carbons for enhanced removal of natural organic matter from natural waters SA Dastgheib, T Karanfil, W Cheng Carbon 42 (3), 547-557, 2004 | 332 | 2004 |
Adsorption of perfluoroalkyl substances (PFAS) in groundwater by granular activated carbons: Roles of hydrophobicity of PFAS and carbon characteristics M Park, S Wu, IJ Lopez, JY Chang, T Karanfil, SA Snyder Water research 170, 115364, 2020 | 290 | 2020 |
Adsorption of aromatic compounds by carbonaceous adsorbents: a comparative study on granular activated carbon, activated carbon fiber, and carbon nanotubes S Zhang, T Shao, HS Kose, T Karanfil Environmental science & technology 44 (16), 6377-6383, 2010 | 286 | 2010 |
Disinfection byproducts in swimming pool: occurrences, implications and future needs S Chowdhury, K Alhooshani, T Karanfil Water research 53, 68-109, 2014 | 281 | 2014 |
Adsorption of natural organic polyelectrolytes by activated carbon: a size-exclusion chromatography study JE Kilduff, T Karanfil, YP Chin, WJ Weber Environmental science & technology 30 (4), 1336-1343, 1996 | 270 | 1996 |
Adsorption of dissolved natural organic matter by modified activated carbons W Cheng, SA Dastgheib, T Karanfil Water research 39 (11), 2281-2290, 2005 | 248 | 2005 |
Adsorption of synthetic organic chemicals by carbon nanotubes: effects of background solution chemistry S Zhang, T Shao, SSK Bekaroglu, T Karanfil Water Research 44 (6), 2067-2074, 2010 | 245 | 2010 |
Formation of disinfection by-products in indoor swimming pool water: the contribution from filling water natural organic matter and swimmer body fluids A Kanan, T Karanfil Water research 45 (2), 926-932, 2011 | 222 | 2011 |
Halonitromethane formation potentials in drinking waters J Hu, H Song, JW Addison, T Karanfil Water research 44 (1), 105-114, 2010 | 217 | 2010 |
Performance of a hybrid reverse osmosis-constructed wetland treatment system for brackish oil field produced water C Murray-Gulde, JE Heatley, T Karanfil, JH Rodgers Jr, JE Myers Water Research 37 (3), 705-713, 2003 | 215 | 2003 |
Removal and sequestration of iodide using silver-impregnated activated carbon JS Hoskins, T Karanfil, SM Serkiz Environmental science & technology 36 (4), 784-789, 2002 | 211 | 2002 |
Disinfection by-product formation during seawater desalination: a review D Kim, GL Amy, T Karanfil Water research 81, 343-355, 2015 | 205 | 2015 |
Efficient PFAS removal by amine-functionalized sorbents: critical review of the current literature M Ateia, A Alsbaiee, T Karanfil, W Dichtel Environmental Science & Technology Letters 6 (12), 688-695, 2019 | 203 | 2019 |
The environmental impacts of iron and steel industry: a life cycle assessment study GM Olmez, FB Dilek, T Karanfil, U Yetis Journal of Cleaner Production 130, 195-201, 2016 | 195 | 2016 |