Hydrous silica coatings: occurrence, speciation of metals, and environmental significance.
暂无分享,去创建一个
[1] M. Freund,et al. Dissolution of uranophane: An AFM, XPS, SEM and ICP study , 2009 .
[2] M. Freund,et al. XPS spectra of uranyl minerals and synthetic uranyl compounds. I: The U 4f spectrum , 2009 .
[3] M. Wilke,et al. Advanced analyses of \textsuperscript{57}Fe Mössbauer data of alumino-silicate glasses , 2008 .
[4] M. Hodson,et al. Characterization of mineral surfaces using FIB and TEM: A case study of naturally weathered alkali feldspars , 2007 .
[5] M. Schoonen,et al. The Structure of Ferrihydrite, a Nanocrystalline Material , 2007, Science.
[6] Chen Zhu,et al. Naturally weathered feldspar surfaces in the Navajo Sandstone aquifer, Black Mesa, Arizona : Electron microscopic characterization , 2006 .
[7] E. Murad,et al. Iron mineralogy of mine-drainage precipitates as environmental indicators: review of current concepts and a case study from the Sokolov Basin, Czech Republic , 2005, Clay Minerals.
[8] P. Persson,et al. Schwertmannite precipitated from acid mine drainage: phase transformation, sulphate release and surface properties , 2005 .
[9] G. Moridis,et al. Sorption of fission product radionuclides, 137Cs and 90Sr, by Savannah River Site sediments impregnated with colloidal silica , 2004 .
[10] S. Brantley. Reaction Kinetics of Primary Rock-forming Minerals under Ambient Conditions , 2003 .
[11] B. Öhlander,et al. Analyses of trace elements on quartz surfaces in sulfidic mine tailings from Kristineberg (Sweden) a few years after remediation , 2003 .
[12] R. Hellmann,et al. An EFTEM/HRTEM high-resolution study of the near surface of labradorite feldspar altered at acid pH: evidence for interfacial dissolution-reprecipitation , 2003 .
[13] Ean,et al. Iron ( III )-silica interactions in aqueous solution : Insights from X-ray absorption fine structure spectroscopy , 2002 .
[14] Huifang Xu,et al. Iron oxide coatings on sand grains from the Atlantic coastal plain: High-resolution transmission electron microscopy characterization , 2001 .
[15] Motoharu Kawano,et al. TEM-EDX study of weathered layers on the surface of volcanic glass, bytownite, and hypersthene in volcanic ash from Sakurajima volcano, Japan , 2001 .
[16] J. Jambor,et al. Jarosites and Their Application in Hydrometallurgy , 2000 .
[17] H. Chang,et al. Apparent solubilities of schwertmannite and ferrihydrite in natural stream waters polluted by mine drainage , 1999 .
[18] D. Blowes,et al. Mobilization and attenuation of heavy metals within a nickel mine tailings impoundment near Sudbury, Ontario, Canada , 1998 .
[19] D. Blowes,et al. The solid-phase controls on the mobility of heavy metals at the Copper Cliff tailings area, Sudbury, Ontario, Canada , 1998 .
[20] C. Pantano,et al. The influence of natural mineral coatings on feldspar weathering , 1998, Nature.
[21] J. Salisbury,et al. Detection of surface hydroxyl species on quartz, γ-alumina, and feldspars using diffuse reflectance infrared spectroscopy , 1997 .
[22] U. Södervall,et al. NEAR-SURFACE COMPOSITION OF ACID-LEACHED LABRADORITE INVESTIGATED BY SIMS , 1997 .
[23] Yanov,et al. Sorption of heavy metal cations on silica clay , 1997 .
[24] L. Charlet,et al. Evidence for the neoformation of clays upon sorption of Co(II) and Ni(II) on silicates , 1994 .
[25] Jillian F. Banfield,et al. The surface chemistry of dissolving labradorite feldspar , 1989 .
[26] C. M. Cardile. Tetrahedral Fe3+ in Ferrihydrite: 57Fe Möossbauer Spectroscopic Evidence , 1988 .
[27] L. H. Bowen,et al. Mössbauer spectroscopy. , 1988, Analytical chemistry.
[28] U. Schwertmann,et al. The Möessbauer spectrum of ferrihydrite and its relations to those of other iron oxides , 1980 .
[29] B. Hathaway,et al. Electronic properties of transition-metal complex ions adsorbed on silica gel. Part I. Nickel(II) complexes , 1969 .
[30] B. Hathaway,et al. Electronic properties of transition-metal complex ions adsorbed on silica gel. Part II. Cobalt(II) and cobalt(III) , 1969 .