Integrated approaches of x-ray absorption spectroscopic and electron microscopic techniques on zinc speciation and characterization in a final sewage sludge product.
暂无分享,去创建一个
Mitsuhiro Murayama | Michael F Hochella | M. Murayama | C. Levard | M. Hochella | G. Brown | Clément Levard | Bojeong Kim | Gordon E Brown | Bojeong Kim
[1] J. Ghanbaja,et al. Sources, nature, and fate of heavy metal-bearing particles in the sewer system. , 2009, The Science of the total environment.
[2] J. Torrent,et al. Weathering of Pyrite and Sphalerite in Soils Contaminated with Pyritic Sludge , 2005 .
[3] M. McBride. Toxic metal accumulation from agricultural use of sludge: are USEPA regulations protective? , 1995 .
[4] J. Banfield,et al. Ultrastructure, aggregation-state, and crystal growth of biogenic nanocrystalline sphalerite and wurtzite , 2004 .
[5] Hansruedi Siegrist,et al. Behavior of metallic silver nanoparticles in a pilot wastewater treatment plant. , 2011, Environmental science & technology.
[6] Samuel M. Webb,et al. SIXpack: a graphical user interface for XAS analysis using IFEFFIT , 2020, International Tables for Crystallography.
[7] Xuefeng Qian,et al. The synthesis of ZnS hollow nanospheres with nanoporous shell , 2005 .
[8] J. Torrent,et al. Experimental oxidative dissolution of sphalerite in the Aznalcollar sludge and other pyritic matrices. , 2006, Journal of environmental quality.
[9] O. Proux,et al. X-ray absorption fine structure evidence for amorphous zinc sulfide as a major zinc species in suspended matter from the Seine River downstream of Paris, Ile-de-France, France. , 2012, Environmental science & technology.
[10] M. McBride,et al. The long-term effect of sludge application on Cu, Zn, and Mo behavior in soils and accumulation in soybean seeds , 2007, Plant and Soil.
[11] Kai Jiang,et al. One step from ZnO rod to ZnS porous tube , 2010 .
[12] 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 .
[13] Andreas C Scheinost,et al. Time-dependent changes of zinc speciation in four soils contaminated with zincite or sphalerite. , 2011, Environmental science & technology.
[14] V. Römheld,et al. Function of Micronutrients in Plants , 2018, Micronutrients in Agriculture.
[15] Mitsuhiro Murayama,et al. Discovery and characterization of silver sulfide nanoparticles in final sewage sludge products. , 2010, Environmental science & technology.
[16] T. Kawano,et al. Chemical states of trace heavy metals in sewage sludge by XAFS spectroscopy , 2005 .
[17] Brian J. Skinner,et al. Unit-cell edges of natural and synthetic sphalerites , 1961 .
[18] A. Voegelin,et al. Plant availability of zinc and copper in soil after contamination with brass foundry filter dust: effect of four years of aging. , 2007, Journal of environmental quality.
[19] Mitsuhiro Murayama,et al. Influence of size and aggregation on the reactivity of an environmentally and industrially relevant nanomaterial (PbS). , 2009, Environmental science & technology.
[20] A. P. Hammersley,et al. Two-dimensional detector software: From real detector to idealised image or two-theta scan , 1996 .
[21] B. Jefferson,et al. Fate of zinc oxide and silver nanoparticles in a pilot wastewater treatment plant and in processed biosolids. , 2014, Environmental science & technology.
[22] C H Wu,et al. A software tool for automatic analysis of selected area diffraction patterns within Digital Micrograph™. , 2012, Ultramicroscopy.
[23] L. S. Birks,et al. Particle Size Determination from X‐Ray Line Broadening , 1946 .
[24] Bernd Nowack,et al. Nanosilver Revisited Downstream , 2010, Science.
[25] D. Sparks,et al. Nanominerals, Mineral Nanoparticles, and Earth Systems , 2008, Science.
[26] S. Beauchemin,et al. Speciation of hepatic Zn in trout exposed to elevated waterborne Zn using X-ray absorption spectroscopy. , 2004, Environmental science & technology.
[27] Kiril Hristovski,et al. Occurrence and removal of titanium at full scale wastewater treatment plants: implications for TiO2 nanomaterials. , 2011, Journal of environmental monitoring : JEM.
[28] J. Yvon,et al. Trace element carriers in combined sewer during dry and wet weather: an electron microscope investigation. , 2004, Water research.
[29] A. Alivisatos. Perspectives on the Physical Chemistry of Semiconductor Nanocrystals , 1996 .
[30] Enzo Lombi,et al. X-ray absorption and micro X-ray fluorescence spectroscopy investigation of copper and zinc speciation in biosolids. , 2011, Environmental science & technology.
[31] Michael F. Hochella,et al. Low Concentrations of Silver Nanoparticles in Biosolids Cause Adverse Ecosystem Responses under Realistic Field Scenario , 2013, PloS one.
[32] K. Scheckel,et al. Advanced in situ spectroscopic techniques and their applications in environmental biogeochemistry: introduction to the special section. , 2011, Journal of environmental quality.
[33] Michael F. Hochella,et al. Characterization and environmental implications of nano- and larger TiO(2) particles in sewage sludge, and soils amended with sewage sludge. , 2012, Journal of environmental monitoring : JEM.
[34] John Pendergrass,et al. Project on Emerging Nanotechnologies , 2007 .
[35] Feng Huang,et al. Nanoparticles: Strained and Stiff , 2004, Science.
[36] Enzo Lombi,et al. Fate of zinc oxide nanoparticles during anaerobic digestion of wastewater and post-treatment processing of sewage sludge. , 2012, Environmental science & technology.
[37] E Donner,et al. A multi-technique investigation of copper and zinc distribution, speciation and potential bioavailability in biosolids. , 2012, Environmental pollution.
[38] J. R. Sanders,et al. Zinc, copper and nickel concentrations in soil extracts and crops grown on four soils treated with metalloaded sewage sludges. , 1987, Environmental pollution.