Effects and mechanisms of Al substitution on the catalytic ability of ferrihydrite for Mn(II) oxidation and the subsequent oxidation and immobilization of coexisting Cr(III).

[1]  M. Machesky,et al.  Interfacial Properties of Al-Ferrihydrites: Surface Complexation Modeling as a Probe of Surface Structure , 2022, ACS Earth and Space Chemistry.

[2]  Z. Lou,et al.  Cr Migration Potential and Species Properties in the Soil Profile from a Chromate Production Site in the Groundwater Depression Cone Area , 2022, Bulletin of Environmental Contamination and Toxicology.

[3]  Erping Bi,et al.  Effects of Al substitution on sorption of diclofenac to Fe(III) (hydr)oxides: roles of phase transition and sorption mechanisms , 2021, Environmental Science and Pollution Research.

[4]  Fenglian Fu,et al.  Fate of Cr(VI) during aging of ferrihydrite-humic acid co-precipitates: Comparative studies of structurally incorporated Al(III) and Mn(II). , 2021, The Science of the total environment.

[5]  N. Mohallem,et al.  Defects induced by Al substitution enhance As(V) adsorption on ferrihydrites. , 2021, Journal of hazardous materials.

[6]  Zhangjie Qin,et al.  Kinetics of Mn(II) adsorption and catalytic oxidation on the surface of ferrihydrite. , 2021, The Science of the total environment.

[7]  M. Hochella,et al.  Facet-specific oxidation of Mn(II) and heterogeneous growth of manganese (oxyhydr)oxides on hematite nanoparticles , 2021 .

[8]  B. Tebo,et al.  Marine microbial Mn(II) oxidation mediates Cr(III) oxidation and isotope fractionation , 2021 .

[9]  Ryohei Suzuki,et al.  Sequestration and Oxidation of Cr(III) by Fungal Mn Oxides with Mn(II) Oxidizing Activity , 2019, Catalysts.

[10]  Guohong Qiu,et al.  Effects of Co(II) ion exchange, Ni(II)- and V(V)-doping on the transformation behaviors of Cr(III) on hexagonal turbostratic birnessite-water interfaces. , 2019, Environmental pollution.

[11]  Q. Xue,et al.  New insights on Cr(VI) retention by ferrihydrite in the presence of Fe(II). , 2019, Chemosphere.

[12]  Tyler D. Johnson,et al.  Elevated Manganese Concentrations in United States Groundwater, Role of Land Surface-Soil-Aquifer Connections. , 2018, Environmental science & technology.

[13]  E. Rosa,et al.  A review of the implications and challenges of manganese removal from mine drainage. , 2019, Chemosphere.

[14]  Guohong Qiu,et al.  Dissolution and phase transformation processes of hausmannite in acidic aqueous systems under anoxic conditions , 2018 .

[15]  D. Dionysiou,et al.  Coadsorption and subsequent redox conversion behaviors of As(III) and Cr(VI) on Al-containing ferrihydrite. , 2018, Environmental pollution.

[16]  Quanjun Xiang,et al.  Enhanced photocatalytic H2-production activity of C-dots modified g-C3N4/TiO2 nanosheets composites. , 2018, Journal of colloid and interface science.

[17]  Q. Huang,et al.  Efficient catalytic As(III) oxidation on the surface of ferrihydrite in the presence of aqueous Mn(II). , 2018, Water research.

[18]  F. Zhao,et al.  Control of arsenic mobilization in paddy soils by manganese and iron oxides. , 2017, Environmental pollution.

[19]  Quanjun Xiang,et al.  Mechanisms of Mn(II) catalytic oxidation on ferrihydrite surfaces and the formation of manganese (oxyhydr)oxides , 2017 .

[20]  W. Casey,et al.  Mn(II) Oxidation by the Multicopper Oxidase Complex Mnx: A Coordinated Two-Stage Mn(II)/(III) and Mn(III)/(IV) Mechanism. , 2017, Journal of the American Chemical Society.

[21]  L. T. Vey,et al.  Could hypoxia acclimation cause morphological changes and protect against Mn-induced oxidative injuries in silver catfish (Rhamdia quelen) even after reoxygenation? , 2017, Environmental pollution.

[22]  P. Biswas,et al.  Photochemically assisted fast abiotic oxidation of manganese and formation of δ-MnO2 nanosheets in nitrate solution. , 2017, Chemical communications.

[23]  S. Fendorf,et al.  Hexavalent Chromium Generation within Naturally Structured Soils and Sediments. , 2017, Environmental science & technology.

[24]  Y. Vodyanitskii,et al.  Ferrihydrite in soils , 2016, Eurasian Soil Science.

[25]  T. Makino,et al.  Functional effects of manganese and iron oxides on the dynamics of trace elements in soils with a special focus on arsenic and cadmium: A review , 2016 .

[26]  M. Chrysochoou,et al.  Mechanisms of Chromate, Selenate, and Sulfate Adsorption on Al-Substituted Ferrihydrite: Implications for Ferrihydrite Surface Structure and Reactivity. , 2016, Environmental science & technology.

[27]  X. Feng,et al.  The Presence of Ferrihydrite Promotes Abiotic Formation of Manganese (Oxyhydr)oxides , 2015 .

[28]  N. Menguy,et al.  Arsenic scavenging by aluminum-substituted ferrihydrites in a circumneutral pH river impacted by acid mine drainage. , 2013, Environmental science & technology.

[29]  T. Waite,et al.  An in situ quick-EXAFS and redox potential study of the Fe(II)-catalysed transformation of ferrihydrite , 2013 .

[30]  C. Levard,et al.  Properties of impurity-bearing ferrihydrite II: Insights into the surface structure and composition of pure, Al- and Si-bearing ferrihydrite from Zn(II) sorption experiments and Zn K-edge X-ray absorption spectroscopy , 2013 .

[31]  Xu Han,et al.  Abiotic oxidation of Mn(II) induced oxidation and mobilization of As(III) in the presence of magnetite and hematite. , 2013, Journal of hazardous materials.

[32]  T. Hiemstra Surface and mineral structure of ferrihydrite , 2013 .

[33]  V. Barrón,et al.  Iron, manganese and aluminium oxides and oxyhydroxides , 2013 .

[34]  Ying Zhang,et al.  The Langmuir monolayer adsorption model of organic matter into effective pores in activated carbon. , 2013, Journal of colloid and interface science.

[35]  C. Levard,et al.  Properties of impurity-bearing ferrihydrite I. Effects of Al content and precipitation rate on the structure of 2-line ferrihydrite , 2012 .

[36]  Xu Han,et al.  Effects of Mn(II) on the sorption and mobilization of As(V) in the presence of hematite. , 2012, Journal of hazardous materials.

[37]  M. Chrysochoou,et al.  Investigation of chromate coordination on ferrihydrite by in situ ATR-FTIR spectroscopy and theoretical frequency calculations. , 2012, Environmental science & technology.

[38]  C. Hansel,et al.  Effect of adsorbed and substituted Al on Fe(II)-induced mineralization pathways of ferrihydrite , 2011 .

[39]  P. Somasundaran,et al.  Effect of nanosize on catalytic properties of ferric (hydr)oxides in water: Mechanistic insights , 2011 .

[40]  R. Saha,et al.  Sources and toxicity of hexavalent chromium , 2011 .

[41]  J. Parise,et al.  Structural water in ferrihydrite and constraints this provides on possible structure models , 2011 .

[42]  Donna Mergler,et al.  Intellectual Impairment in School-Age Children Exposed to Manganese from Drinking Water , 2010, Environmental health perspectives.

[43]  G. Pan,et al.  The microstructure of ferrihydrite and its catalytic reactivity. , 2010, Chemosphere.

[44]  A. Ambrosini,et al.  Ordered ferrimagnetic form of ferrihydrite reveals links among structure, composition, and magnetism , 2010, Proceedings of the National Academy of Sciences.

[45]  Emmanuel Fritsch,et al.  XANES evidence for oxidation of Cr(III) to Cr(VI) by Mn-oxides in a lateritic regolith developed on serpentinized ultramafic rocks of New Caledonia. , 2009, Environmental science & technology.

[46]  M. Aschner,et al.  Manganese and its Role in Parkinson’s Disease: From Transport to Neuropathology , 2009, NeuroMolecular Medicine.

[47]  R. L. Penn,et al.  Influence of aluminum doping on ferrihydrite nanoparticle reactivity. , 2006, The journal of physical chemistry. B.

[48]  W. Casey Large aqueous aluminum hydroxide molecules. , 2006, Chemical reviews.

[49]  Q. Huang,et al.  Pathways of birnessite formation in alkali medium , 2005 .

[50]  D. Sherman Electronic structures of iron(III) and manganese(IV) (hydr)oxide minerals : Thermodynamics of photochemical reductive dissolution in aquatic environments , 2005 .

[51]  U. Schwertmann,et al.  Formation and Properties of a Continuous Crystallinity Series of Synthetic Ferrihydrites (2- to 6-line) and their Relation to FeOOH Forms , 2004 .

[52]  M. Shuler,et al.  Kinetics of Mn(II) oxidation by Leptothrix discophora SS1 , 2002 .

[53]  B. Tebo,et al.  Enzymatic Manganese(II) Oxidation by a Marine α-Proteobacterium , 2001, Applied and Environmental Microbiology.

[54]  P. Nico,et al.  Importance of Mn(III) Availability on the Rate of Cr(III) Oxidation on δ-MnO2 , 2000 .

[55]  Yong Xu,et al.  The absolute energy positions of conduction and valence bands of selected semiconducting minerals , 2000 .

[56]  J. J. Morgan,et al.  Kinetic Behavior of Mn(III) Complexes of Pyrophosphate, EDTA, and Citrate , 1998 .

[57]  K. Nealson,et al.  Iron and manganese in anaerobic respiration: environmental significance, physiology, and regulation. , 1994, Annual review of microbiology.

[58]  R. M. Cornell,et al.  Crystallization of metal substituted ferrihydrites , 1992 .

[59]  R. J. Bartlett Chromium cycling in soils and water: links, gaps, and methods. , 1991, Environmental health perspectives.

[60]  W. Kirby-Smith,et al.  Application of formaldoxime colorimetric method for the determination of manganese in the pore water of anoxic estuarine sediments , 1979 .

[61]  李濬 Manganese , 1941, Science.