Abollino O, Aceto M, Malandrino M, Sarzanini C, Mentasti E (2003) Adsorption of heavy metals on Na-montmorillonite: effect of pH and organic substances. Water Res 37:1619–1627
Ali MA, Dzombak DA (1996a) Effects of simple organic acids on sorption of Cu2+ and Ca2+ on goethite. Geochim Cosmochim Acta 60:291–304
Ali MA, Dzombak DA (1996b) Interactions of copper, organic acids, and sulfate in goethite suspensions. Geochim Cosmochim Acta 60:5045–5053
Alvarez-Puebla RA, Valenzuela-Calahorro C, Carrido JJ (2004) Retention of Co(II), Ni(II), and Cu(II) on a purified brown humic acid. Modeling and characterization of the sorption process. Langmuir 20:3657–3664
An CJ, Huang GH, Wei J, Yu H (2011) Effect of short-chain organic acids on the enhanced desorption of phenanthrene by rhamnolipid biosurfactant in soil-water environment. Water Res 45:5501–5510
Angove MJ, Wells JD, Johnson BB (1999) Adsorption of cadmium(II) onto goethite and kaolinite in the presence of benzene carboxylic acids. Colloids Surf A 146:243–251
Avery SV, Tobin JM (1993) Mechanism of adsorption of hard and soft metal ions to Saccharomyces cerevisiae and influence of hard and soft anions. Appl Environ Microbiol 59:2851–2856
Benyahya L, Garnier JM (1999) Effect of salicylic acid upon trace-metal sorption (CdII, ZnII, CoII, and MnII) onto alumina, silica, and kaolinite as a function of pH. Environ Sci Technol 33:1398–1407
Boily JF, Fein JB (1996) Experimental study of cadmium-citrate co-adsorption onto α-Al2O3. Geochim Cosmochim Acta 60:2929–2938
Boily JF, Fein JB (1998) Adsorption of Pb(II) and benzenecarboxylates onto corundum. Chem Geol 148:157–175
Bradl HB (2004) Adsorption of heavy metal ions on soils and soils constituents. J Colloid Interface Sci 277:1–18
Cai P, Huang Q, Zhang X (2006) Microcalorimetric studies of the effects of MgCl2 concentrations and pH on the adsorption of DNA on montmorillonite, kaolinite and goethite. Appl Clay Sci 32:147–152
Collins CR, Ragnarsdottir KV, Sherman DM (1999) Effect of inorganic and organic ligands on the mechanism of cadmium sorption to goethite. Geochim Cosmochim Acta 63:2989–3002
Daughney CJ, Fein JB, Yee N (1998) A comparison of the thermodynamics of metal adsorption onto two common bacteria. Chem Geol 144:161–176
Du HH, Chen WL, Cai P, Rong XM, Chen CR, Huang QY (2016) Cadmium adsorption on bacteria—mineral mixtures: effect of naturally occurring ligands. Eur J Soil Sci 67:641–649
Duman O, Tunc S (2008) Electrokinetic properties of vermiculite and expanded vermiculite: effects of pH, clay concentration and mono- and multivalent electrolytes. Sep Sci Technol 43:3755–3776
Duman O, Tunc S, Cetinkaya A (2012) Electrokinetic and rheological properties of kaolinite in poly(diallyldimethylammonium chloride), poly(sodium 4-styrene sulfonate) and poly(vinyl alcohol) solutions. Colloids Surf A 394:23–32
Elzinga EJ, Kretzschmar R (2013) In situ ATR-FTIR spectroscopic analysis of the co-adsorption of orthophosphate and Cd(II) onto hematite. Geochim Cosmochim Acta 117:53–64
Elzinga EJ, Peak D, Sparks DL (2001) Spectroscopic studies of Pb(II)-sulfate interactions at the goethite-water interface. Geochim Cosmochim Acta 65:2219–2230
Erdemoğlu M, Sarıkaya M (2006) Effects of heavy metals and oxalate on the zeta potential of magnetite. J Colloid Interface Sci 300:795–804
Evans N, Warwick P, Lewis T, Bryan N (2011) Influence of humic acid on the sorption of uranium (IV) to kaolin. Environ Chem Lett 9:25–30
Fein JB, Daughney CJ, Yee N, Davis TA (1997) A chemical equilibrium model for metal adsorption onto bacterial surfaces. Geochim Cosmochim Acta 61:3319–3328
Flynn ED, Catalano JG (2017) Competitive and cooperative effects during nickel adsorption to iron oxides in the presence of oxalate. Environ Sci Technol 51:9792–9799
Glover LJ II, Eick MJ, Brady PV (2002) Desorption kinetics of cadmium2+ and lead2+ from goethite: influence of time and organic acids. Soil Sci Soc Am J 66:797–804
Gu C, Wang Z, Kubicki JD, Wang X, Zhu M (2016) X-ray absorption spectroscopic quantification and speciation modeling of sulfate adsorption on ferrihydrite surfaces. Environ Sci Technol 50:8067–8076
Ha J, Trainor TP, Farges F, Brown GE Jr (2009) Interaction of Zn(II) with hematite nanoparticles and microparticles: part 2. ATR-FTIR and EXAFS study of the aqueous Zn(II)/oxalate/hematite ternary system. Langmuir 25:5586–5593
Huang PM, Wang MK, Chiu CY (2005) Soil mineral-organic matter-microbe interactions: impacts on biogeochemical processes and biodiversity in soils. Pedobiologia 49:609–635
Huang L, Hu H, Li X, Li LY (2010) Influence of low molar mass organic acids on the adsorption of Cd2+ and Pb2+ by goethite and montmorillonite. Appl Clay Sci 49:281–287
Hwang YS, Lenhart JJ (2008) Adsorption of C4-dicarboxylic acids at the hematite/water interface. Langmuir 24:13934–13943
Ioannou A, Dimirkou A (1997) Phosphate adsorption on hematite, kaolinite, and kaolinite–hematite (k–h) systems as described by a constant capacitance model. J Colloid Interface Sci 192:119–128
Juang RS, Chung JY (2004) Equilibrium sorption of heavy metals and phosphate from single- and binary-sorbate solutions on goethite. J Colloid Interface Sci 275:53–60
Juang RS, Wu WL (2002) Adsorption of sulfate and copper(II) on goethite in relation to the changes of zeta potentials. J Colloid Interface Sci 249:22–29
Kang S, Xing B (2007) Adsorption of dicarboxylic acids by clay minerals as examined by in situ ATR-FTIR and ex situ DRIFT. Langmuir 23:7024–7031
Kim J, Li W, Philips BL, Grey CP (2011) Phosphate adsorption on the iron oxyhydroxides goethite (α-FeOOH), akaganeite (β-FeOOH), and lepidocrocite (γ-FeOOH): a 31P NMR study. Energy Environ Sci 4:4298–4305
Lackovic K, Angove MJ, Wells JD, Johnson BB (2004a) Modelling the adsorption of Cd(II) onto goethite in the presence of citric acid. J Colloid Interface Sci 269:37–45
Lackovic K, Wells JD, Johnson BB, Angove MJ (2004b) Modeling the adsorption of Cd(II) onto kaolinite and muloorina illite in the presence of citric acid. J Colloid Interface Sci 270:86–93
Ledin M (2000) Accumulation of metals by microorganisms—processes and importance for soil systems. Earth Sci Rev 51:1–31
Lee SO, Tran T, Jung BH, Kim SJ, Kim MJ (2007) Dissolution of iron oxide using oxalic acid. Hydrometallurgy 87:91–99
Lenhart JJ, Bargar JR, Davis JA (2001) Spectroscopic evidence for ternary surface complexes in the lead(II)-malonic acid-hematite system. J Colloid Interface Sci 234:448–452
Li W, Zhang S, Jiang W, Shan XQ (2006) Effect of phosphate on the adsorption of Cu and Cd on natural hematite. Chemosphere 63:1235–1241
Li W, Zhang S, Shan XQ (2007) Surface modification of goethite by phosphate for enhancement of Cu and Cd adsorption. Colloids Surf A 293:13–19
Lin SH, Kao HC, Cheng CH, Juang RS (2004) An EXAFS study of the structure of copper and phosphate sorbed onto goethite. Colloids Surf A 234:71–75
Liu J, Zhu R, Xu T, Xu Y, Ge F, Xi Y, Zhu J, He H (2016) Co-adsorption of phosphate and zinc(II) on the surface of ferrihydrite. Chemosphere 144:1148–1155
Liu J, Zhu R, Liang X, Ma L, Lin X, Zhu J, He H, Parker SC, Molinari M (2018) Synergistic adsorption of Cd(II) with sulfate/phosphate on ferrihydrite: an in situ ATR-FTIR/2D-COS study. Chem Geol 477:12–21
Marcussen H, Holm PE, Strobel BW, Hansen HCB (2009) Nickel sorption to goethite and montmorillonite in presence of citrate. Environ Sci Technol 43:1122–1127
Morton JD, Semrau JD, Hayes KF (2001) An X-ray absorption spectroscopy study of the structure and reversibility of copper adsorbed to montmorillonite clay. Geochim Cosmochim Acta 65:2709–2722
Ngwenya BT, Sutherland IW, Kennedy L (2003) Comparison of the acid-base behaviour and metal adsorption characteristics of a gram-negative bacterium with other strains. Appl Geochem 18:527–538
Olu-Owolabi BI, Unuabonah EI (2010) Kinetic and thermodynamics of the removal of Zn2+ and Cu2+ from aqueous solution by sulphate and phosphate-modified bentonite clay. J Hazard Mater 184:731–738
Ostergren JD, Brown GE Jr, Parks GA, Persson P (2000a) Inorganic ligand effects on Pb(II) sorption to goethite (α-FeOOH) II. Sulfate. J Colloid Interface Sci 225:483–493
Ostergren JD, Trainor TP, Bargar JR, Brown GE Jr, Parks GA (2000b) Inorganic ligand effects on Pb(II) sorption to goethite (α-FeOOH) I. Carbonate. J Colloid Interface Sci 225:466–482
Peacock CL, Sherman DM (2005) Surface complexation model for multisite adsorption of copper(II) onto kaolinite. Geochim Cosmochim Acta 69:3733–3745
Puranik PR, Paknikar KM (1999) Biosorption of lead, cadmium, and zinc by Citrobacter Strain MCM B-181: characterization studies. Biotechnol Progr 15:228–237
Ren X, Yang S, Tan X, Chen C, Sheng G, Wang X (2012) Mutual effects of copper and phosphate on their interaction with γ-Al2O3: combined batch macroscopic experiments with DFT calculations. J Hazard Mater 237–238:199–208
Ren X, Tan X, Hayat T, Alsaedi A, Wang X (2015) Co-sequestration of Zn(II) and phosphate by γ-Al2O3: from macroscopic to microscopic investigation. J Hazard Mater 297:134–145
Senesi N, Loffredo E (2008) Spectroscopic techniques for studying metal-humic substance complexes in soil: an overview. In: Violante A, Huang PM, Gadd GM (eds) Biophysico-chemical processes of heavy metals and metalloids in soil environments. Wiley, New York, pp 125–168
Shuttleworth KL, Unz RF (1993) Sorption of heavy metals to the filamentous bacterium Thiothrix Strain A1. Appl Environ Microb 59:1274–1282
Song Y, Swedlund PJ, Singhal N (2008) Copper(II) and cadmium (II) sorption onto ferrihydrite in the presence of phthalic acid: some properties of the ternary complex. Environ Sci Technol 42:4008–4013
Song Y, Swedlund PJ, Singhal N, Swift S (2009) Cadmium(II) speciation in complex aquatic systems: a study with ferrihydrite, bacteria, and an organic ligand. Environ Sci Technol 43:7430–7436
Sparks DL (2002) Environmental soil chemistry. Academic Press, New York
Stietiya MH, Wang JJ (2014) Zinc and cadmium adsorption to aluminum oxide nanoparticles affected by naturally occurring ligands. J Environ Qual 43:498–506
Stietiya MH, Wang JJ, Roy A (2011) Macroscopic and extended x-ray absorption fine structure spectroscopic investigation of ligand effect on zinc absorption to kaolinite as a function of pH. Soil Sci 176:464–471
Strawn DG, Sparks DL (1999) The use of XAFS to distinguish between inner- and outer-sphere lead adsorption complexes on montmorillonite. J Colloid Interface Sci 216:257–269
Swedlund PJ, Webster JG (2001) Cu and Zn ternary surface complex formation with SO4 on ferrihydrite and schwertmannite. Appl Geochem 16:503–511
Swedlund PJ, Webster JG, Miskelly GM (2003) The effect of SO4 on the ferrihydrite adsorption of Co, Pb and Cd: ternary complexes and site heterogeneity. Appl Geochem 18:1671–1689
Swedlund PJ, Webster JG, Miskelly GM (2009) Goethite adsorption of Cu(II), Pb(II), Cd(II), and Zn(II) in the presence of sulfate: properties of the ternary complex. Geochim Cosmochim Acta 73:1548–1562
Taylor RW, Bleam WF, Ranatunga TD, Schulthess CP, Senwo ZN, Ranatunga DRA (2009) X-ray absorption near edge structure study of lead sorption on phosphate-treated kaolinite. Environ Sci Technol 43:711–717
Tiberg C, Gustafsson JP (2016) Phosphate effects on cadmium(II) sorption to ferrihydrite. J Colloid Interface Sci 471:103–111
Tiberg C, Sjostedt C, Persson I, Gustafsson JP (2013) Phosphate effects on copper(II) and lead(II) sorption to ferrihydrite. Geochim Cosmochim Acta 120:140–157
Tombácz E, Szekeres M (2006) Surface charge heterogeneity of kaolinite in aqueous suspension in comparison with montmorillonite. Appl Clay Sci 34:105–124
Tunc S, Duman O (2008) The effect of different molecular weight of poly(ethylene glycol) on the electrokinetic and rheological properties of Na-bentonite suspensions. Colloids Surf A 317:93–99
Tunc S, Duman O (2009) Effects of electrolytes on the electrokinetic properties of pumice suspensions. J Dispers Sci Technol 30:548–555
Tunc S, Duman O, Uysal R (2008) Electrokinetic and rheological behaviors of sepiolite suspensions in the presence of poly(acrylic acid sodium salt)s, polyacrylamides, and poly(ethylene glycol)s of different molecular weights. J Appl Polym Sci 109:1850–1860
Unuabonah EI, Adebowale KO, Olu-Owolabi BI (2007) Kinetic and thermodynamic studies of the adsorption of lead(II) ions onto phosphate-modified kaolinite clay. J Hazard Mater 144:386–395
Unuabonah EI, Olu-Owolabi BI, Oladoja AN, Ofomaja AE, Yang ZL (2010) Pb/Ca ion exchange on kaolinite clay modified with phosphates. J Soil Sediment 10:1103–1114
Van Emmerik TJ, Sandström DE, Antzutkin ON, Angove MJ, Johnson BB (2007) 31P solid-state nuclear magnetic resonance study of the sorption of phosphate onto gibbsite and kaolinite. Langmuir 23:3205–3213
Venema P, Hiemstra T, van Riemsdijk WH (1997) Interaction of cadmium with phosphate on goethite. J Colloid Interface Sci 192:94–103
Violante A, Krishnamurti GSR, Huang PM (2002) Impact of organic substances on the formation of metal oxides in soil environments. In: Huang PM, Bollag JM, Senesi N (eds) Interactions between soil particles and microorganism: impact on the terrestrial ecosystem. Wiley, New York, pp 133–188
Violante A, Ricciardella M, Pigna M (2003) Adsorption of heavy metals on mixed Fe-Al oxides in the absence or presence of organic ligands. Water Air Soil Pollut 145:289–306
Wang K, Xing B (2002) Adsorption and desorption of cadmium by goethite pretreated with phosphate. Chemosphere 48:665–670
Wang K, Xing B (2004) Mutual effects of cadmium and phosphate on their adsorption and desorption by goethite. Environ Pollut 127:13–20
Wang L, Putnis CV, Ruiz-Agudo E, Hövelmann J, Putnis A (2015) In situ imaging of interfacial precipitation of phosphate on goethite. Environ Sci Technol 49:4184–4192
Weesner FJ, Bleam WF (1998) Binding characteristics of Pb2+ on anion-modified and pristine hydrous oxide surfaces studied by electrophoretic mobility and X-ray absorption spectroscopy. J Colloid Interface Sci 205:380–389
Wu Z, Gu Z, Wang X, Evans L, Guo H (2003) Effects of organic acids on adsorption of lead onto montmorillonite, goethite and humic acid. Environ Pollut 121:469–475
Yamaguchi NU, Scheinost AC, Sparks DL (2001) Surface-induced nickel hydroxide precipitation in the presence of citrate and salicylate. Soil Sci Soc Am J 65:729–736
Yamaguchi NU, Scheinost AC, Sparks DL (2002) Influence of gibbsite surface area and citrate on Ni sorption mechanisms at pH 7.5. Clays Clay Miner 50:784–790
Yuan S, Xi Z, Jiang Y, Wan J, Wu C, Zheng Z, Lu X (2007) Desorption of copper and cadmium from soils enhanced by organic acids. Chemosphere 68:1289–1297
Zaman MI, Mustafa S, Khan S, Xing B (2009) Effect of phosphate complexation on Cd2+ sorption by manganese dioxide. J Colloid Interface Sci 330:9–19
Zhang GY, Peak D (2007) Studies of Cd(II)-sulfate interactions at the goethite-water interface by ATR-FTIR spectroscopy. Geochim Cosmochim Acta 71:2158–2169
Zhu J, Cozzolino V, Fernandez M, Sánchez RMT, Pigna M, Huang Q, Violante A (2011) Sorption of Cu on a Fe-deformed montmorillonite complex: effect of pH, ionic strength, competitor heavy metal, inorganic and organic ligands. Appl Clay Sci 52:339–344
Zhu R, Li M, Ge F, Xu Y, Zhu J, He H (2014) Co-sorption of Cd and phosphate on the surface of a synthetic hydroxyiron-montmorillonite complex. Clay Clay Miner 62:79–88
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