Arsenate and chromate retention mechanisms on goethite. 1. Surface structure S Fendorf, MJ Eick, P Grossl, DL Sparks Environmental science & technology 31 (2), 315-320, 1997 | 1308 | 1997 |
Spatial and temporal variations of groundwater arsenic in South and Southeast Asia S Fendorf, HA Michael, A Van Geen Science 328 (5982), 1123-1127, 2010 | 1273 | 2010 |
Surface structures and stability of arsenic (III) on goethite: spectroscopic evidence for inner-sphere complexes BA Manning, SE Fendorf, S Goldberg Environmental science & technology 32 (16), 2383-2388, 1998 | 1032 | 1998 |
Surface reactions of chromium in soils and waters SE Fendorf Geoderma 67 (1-2), 55-71, 1995 | 829 | 1995 |
Arsenic (III) oxidation and arsenic (V) adsorption reactions on synthetic birnessite BA Manning, SE Fendorf, B Bostick, DL Suarez Environmental science & technology 36 (5), 976-981, 2002 | 766 | 2002 |
Secondary mineralization pathways induced by dissimilatory iron reduction of ferrihydrite under advective flow CM Hansel, SG Benner, J Neiss, A Dohnalkova, RK Kukkadapu, ... Geochimica et Cosmochimica Acta 67 (16), 2977-2992, 2003 | 717 | 2003 |
Near-surface wetland sediments as a source of arsenic release to ground water in Asia ML Polizzotto, BD Kocar, SG Benner, M Sampson, S Fendorf Nature 454 (7203), 505-508, 2008 | 659 | 2008 |
Genesis of hexavalent chromium from natural sources in soil and groundwater C Oze, DK Bird, S Fendorf Proceedings of the National Academy of Sciences 104 (16), 6544-6549, 2007 | 602 | 2007 |
Arsenic mobilization by the dissimilatory Fe (III)-reducing bacterium Shewanella alga BrY DE Cummings, F Caccavo, S Fendorf, RF Rosenzweig Environmental Science & Technology 33 (5), 723-729, 1999 | 602 | 1999 |
Competing Fe (II)-induced mineralization pathways of ferrihydrite CM Hansel, SG Benner, S Fendorf Environmental Science & Technology 39 (18), 7147-7153, 2005 | 599 | 2005 |
Changes in bacterial and archaeal community structure and functional diversity along a geochemically variable soil profile CM Hansel, S Fendorf, PM Jardine, CA Francis Applied and environmental microbiology 74 (5), 1620-1633, 2008 | 577 | 2008 |
Reduction of hexavalent chromium by amorphous iron sulfide RR Patterson, S Fendorf, M Fendorf Environmental Science & Technology 31 (7), 2039-2044, 1997 | 551 | 1997 |
Arsenite sorption on troilite (FeS) and pyrite (FeS2) BC Bostick, S Fendorf Geochimica et cosmochimica Acta 67 (5), 909-921, 2003 | 524 | 2003 |
Kinetics of chromate reduction by ferrous iron SE Fendorf, G Li Environmental Science & Technology 30 (5), 1614-1617, 1996 | 522 | 1996 |
Chromium (III) oxidation by. delta.-manganese oxide (MnO2). 1. Characterization SE Fendorf, RJ Zasoski Environmental Science & Technology 26 (1), 79-85, 1992 | 478 | 1992 |
Characterization of Fe plaque and associated metals on the roots of mine-waste impacted aquatic plants CM Hansel, S Fendorf, S Sutton, M Newville Environmental science & technology 35 (19), 3863-3868, 2001 | 473 | 2001 |
Purification to Homogeneity and Characterization of a Novel Pseudomonas putida Chromate Reductase CH Park, M Keyhan, B Wielinga, S Fendorf, A Matin Applied and environmental microbiology 66 (5), 1788-1795, 2000 | 441 | 2000 |
Iron promoted reduction of chromate by dissimilatory iron-reducing bacteria B Wielinga, MM Mizuba, CM Hansel, S Fendorf Environmental science & technology 35 (3), 522-527, 2001 | 377 | 2001 |
Anaerobic microsites have an unaccounted role in soil carbon stabilization M Keiluweit, T Wanzek, M Kleber, P Nico, S Fendorf Nature communications 8 (1), 1771, 2017 | 354 | 2017 |
Inhibition of bacterial U (VI) reduction by calcium SC Brooks, JK Fredrickson, SL Carroll, DW Kennedy, JM Zachara, ... Environmental Science & Technology 37 (9), 1850-1858, 2003 | 346 | 2003 |