Arsenate and arsenite removal by zerovalent iron: kinetics, redox transformation, and implications for in situ groundwater remediation C Su, RW Puls Environmental science & technology 35 (7), 1487-1492, 2001 | 633 | 2001 |
Arsenate and arsenite removal by zerovalent iron: effects of phosphate, silicate, carbonate, borate, sulfate, chromate, molybdate, and nitrate, relative to chloride C Su, RW Puls Environmental science & technology 35 (22), 4562-4568, 2001 | 593 | 2001 |
Nano-enabled pesticides for sustainable agriculture and global food security D Wang, NB Saleh, A Byro, R Zepp, E Sahle-Demessie, TP Luxton, KT Ho, ... Nature nanotechnology 17 (4), 347-360, 2022 | 441 | 2022 |
Nitrate reduction by zerovalent iron: effects of formate, oxalate, citrate, chloride, sulfate, borate, and phosphate C Su, RW Puls Environmental science & technology 38 (9), 2715-2720, 2004 | 383 | 2004 |
Kinetics of trichloroethene reduction by zerovalent iron and tin: pretreatment effect, apparent activation energy, and intermediate products C Su, RW Puls Environmental Science & Technology 33 (1), 163-168, 1999 | 377 | 1999 |
Environmental implications and applications of engineered nanoscale magnetite and its hybrid nanocomposites: A review of recent literature C Su Journal of hazardous materials 322, 48-84, 2017 | 373 | 2017 |
In Situ Infrared Speciation of Adsorbed Carbonate on Aluminum and Iron Oxides C Su, DL Suarez Clays and Clay Minerals 45, 814-825, 1997 | 351 | 1997 |
Selenate and selenite sorption on iron oxides an infrared and electrophoretic study C Su, DL Suarez Soil Science Society of America Journal 64 (1), 101-111, 2000 | 321 | 2000 |
Chromium-removal processes during groundwater remediation by a zerovalent iron permeable reactive barrier RT Wilkin, C Su, RG Ford, CJ Paul Environmental science & technology 39 (12), 4599-4605, 2005 | 314 | 2005 |
Coordination of adsorbed boron: A FTIR spectroscopic study C Su, DL Suarez Environmental science & technology 29 (2), 302-311, 1995 | 293 | 1995 |
Distinct Effects of Humic Acid on Transport and Retention of TiO2 Rutile Nanoparticles in Saturated Sand Columns G Chen, X Liu, C Su Environmental science & technology 46 (13), 7142-7150, 2012 | 282 | 2012 |
In situ remediation of arsenic in simulated groundwater using zerovalent iron: laboratory column tests on combined effects of phosphate and silicate C Su, RW Puls Environmental Science & Technology 37 (11), 2582-2587, 2003 | 193 | 2003 |
Transport and Retention of TiO2 Rutile Nanoparticles in Saturated Porous Media under Low-Ionic-Strength Conditions: Measurements and Mechanisms G Chen, X Liu, C Su Langmuir 27 (9), 5393-5402, 2011 | 192 | 2011 |
Heterogeneous activation of persulfate by reduced graphene oxide–elemental silver/magnetite nanohybrids for the oxidative degradation of pharmaceuticals and endocrine … CM Park, J Heo, D Wang, C Su, Y Yoon Applied catalysis B: environmental 225, 91-99, 2018 | 171 | 2018 |
Potential utility of graphene-based nano spinel ferrites as adsorbent and photocatalyst for removing organic/inorganic contaminants from aqueous solutions: A mini review CM Park, YM Kim, KH Kim, D Wang, C Su, Y Yoon Chemosphere 221, 392-402, 2019 | 161 | 2019 |
Review of abiotic degradation of chlorinated solvents by reactive iron minerals in aquifers YT He, JT Wilson, C Su, RT Wilkin Groundwater Monitoring & Remediation 35 (3), 57-75, 2015 | 157 | 2015 |
In situ chemical reduction of Cr (VI) in groundwater using a combination of ferrous sulfate and sodium dithionite: a field investigation RD Ludwig, C Su, TR Lee, RT Wilkin, SD Acree, RR Ross, A Keeley Environmental science & technology 41 (15), 5299-5305, 2007 | 155 | 2007 |
A two and half-year-performance evaluation of a field test on treatment of source zone tetrachloroethene and its chlorinated daughter products using emulsified zero valent iron … C Su, RW Puls, TA Krug, MT Watling, SK O'Hara, JW Quinn, NE Ruiz Water research 46 (16), 5071-5084, 2012 | 152 | 2012 |
Next-generation multifunctional carbon–metal nanohybrids for energy and environmental applications D Wang, NB Saleh, W Sun, CM Park, C Shen, N Aich, WJGM Peijnenburg, ... Environmental science & technology 53 (13), 7265-7287, 2019 | 140 | 2019 |
Significance of iron (II, III) hydroxycarbonate green rust in arsenic remediation using zerovalent iron in laboratory column tests C Su, RW Puls Environmental science & technology 38 (19), 5224-5231, 2004 | 133 | 2004 |