| The structure of disordered mackinawite M Wolthers, SJ Van der Gaast, D Rickard American Mineralogist 88 (11-12), 2007-2015, 2003 | 277 | 2003 |
| Arsenic mobility in the ambient sulfidic environment: Sorption of arsenic (V) and arsenic (III) onto disordered mackinawite M Wolthers, L Charlet, CH van Der Weijden, PR Van der Linde, D Rickard Geochimica et Cosmochimica Acta 69 (14), 3483-3492, 2005 | 264 | 2005 |
| The surface chemistry of divalent metal carbonate minerals; a critical assessment of surface charge and potential data using the charge distribution multi-site ion complexation … M Wolthers, L Charlet, P Van Cappellen American Journal of science 308 (8), 905-941, 2008 | 203 | 2008 |
| Surface chemistry of disordered mackinawite (FeS) M Wolthers, L Charlet, PR van Der Linde, D Rickard, CH van Der Weijden Geochimica et Cosmochimica Acta 69 (14), 3469-3481, 2005 | 187 | 2005 |
| Coupled dynamics of iron and phosphorus in sediments of an oligotrophic coastal basin and the impact of anaerobic oxidation of methane CP Slomp, HP Mort, T Jilbert, DC Reed, BG Gustafsson, M Wolthers PloS one 8 (4), e62386, 2013 | 143 | 2013 |
| Calcite growth kinetics: Modeling the effect of solution stoichiometry M Wolthers, G Nehrke, JP Gustafsson, P Van Cappellen Geochimica et Cosmochimica Acta 77, 121-134, 2012 | 143 | 2012 |
| Adsorption of arsenite and arsenate onto muscovite and biotite mica S Chakraborty, M Wolthers, D Chatterjee, L Charlet Journal of Colloid and Interface Science 309 (2), 392-401, 2007 | 136 | 2007 |
| Calcite surface structure and reactivity: molecular dynamics simulations and macroscopic surface modelling of the calcite–water interface M Wolthers, D Di Tommaso, Z Du, NH de Leeuw Physical Chemistry Chemical Physics 14 (43), 15145-15157, 2012 | 108 | 2012 |
| Active nature of primary amines during thermal decomposition of nickel dithiocarbamates to nickel sulfide nanoparticles N Hollingsworth, A Roffey, HU Islam, M Mercy, A Roldan, W Bras, ... Chemistry of Materials 26 (21), 6281-6292, 2014 | 85 | 2014 |
| A novel salinity proxy based on Na incorporation into foraminiferal calcite JC Wit, LJ De Nooijer, M Wolthers, GJ Reichart Biogeosciences 10 (10), 6375-6387, 2013 | 78 | 2013 |
| Copper incorporation in foraminiferal calcite: results from culturing experiments LJ de Nooijer, GJ Reichart, A Dueñas-Bohórquez, M Wolthers, SR Ernst, ... Biogeosciences 4 (4), 493-504, 2007 | 77 | 2007 |
| Solution structure of the 3'-5'cyclic dinucleotide d (pApA). A combined NMR, UV melting, and molecular mechanics study. MJ Blommers, CA Haasnoot, JA Walters, GA Van der Marel, ... Biochemistry 27 (22), 8361-8369, 1988 | 66* | 1988 |
| Effect of pH and phosphate on calcium carbonate polymorphs precipitated at near-freezing temperature YB Hu, M Wolthers, DA Wolf-Gladrow, G Nehrke Crystal Growth & Design 15 (4), 1596-1601, 2015 | 64 | 2015 |
| Sorption and catalytic oxidation of Fe (II) at the surface of calcite S Mettler, M Wolthers, L Charlet, U Von Gunten Geochimica et Cosmochimica Acta 73 (7), 1826-1840, 2009 | 53 | 2009 |
| Influence of arsenic on iron sulfide transformations M Wolthers, IB Butler, D Rickard Chemical Geology 236 (3-4), 217-227, 2007 | 49 | 2007 |
| Are recent changes in sediment manganese sequestration in the euxinic basins of the Baltic Sea linked to the expansion of hypoxia? C Lenz, T Jilbert, DJ Conley, M Wolthers, CP Slomp Biogeosciences 12 (16), 4875-4894, 2015 | 45 | 2015 |
| Variations in calcite growth kinetics with surface topography: molecular dynamics simulations and process-based growth kinetics modelling M Wolthers, D Di Tommaso, Z Du, NH de Leeuw CrystEngComm 15 (27), 5506-5514, 2013 | 34 | 2013 |
| Calcite Growth Kinetics: Dependence on Saturation Index, Ca2+:CO32– Activity Ratio, and Surface Atomic Structure KK Sand, DJ Tobler, S Dobberschütz, KK Larsen, E Makovicky, ... Crystal Growth & Design 16 (7), 3602-3612, 2016 | 31 | 2016 |
| Impacts of pH and [CO32−] on the incorporation of Zn in foraminiferal calcite I van Dijk, LJ de Nooijer, M Wolthers, GJ Reichart Geochimica et Cosmochimica Acta 197, 263-277, 2017 | 29 | 2017 |
| Pyrite in a sulfate-poor Paleoarchean basin was derived predominantly from elemental sulfur: Evidence from 3.2 Ga sediments in the Barberton Greenstone Belt, Kaapvaal Craton A Galić, PRD Mason, JM Mogollón, M Wolthers, PZ Vroon, ... Chemical Geology 449, 135-146, 2017 | 27 | 2017 |
NH de LeeuwProfessor of Computational Chemistry, University of Leeds, UK; Utrecht University, The NetherlandsVerified email at leeds.ac.uk
