This is the first book to cover actinide nano research. It is of interest both for fundamental research into the chemistry and physics of f-block elements as well as for applied researchers such as those studying the long-term safety of nuclear waste disposal and developing remediation strategies. The authors cover important issues of the formation of actinide nano-particles, their properties and structure, environmental behavior of colloids and nanoparticles related to the safe disposal of nuclear wastes, modeling and advanced methods of characterization at the nano-scale.
This is the first book to cover actinide nano research. It is of interest both for fundamental research into the chemistry and physics of f-block elements as well as for applied researchers such as those studying the long-term safety of nuclear waste disposal and developing remediation strategies.
The authors cover important issues of the formation of actinide nano-particles, their properties and structure, environmental behavior of colloids and nanoparticles related to the safe disposal of nuclear wastes, modeling and advanced methods of characterization at the nano-scale. Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Artikelnr. des Verlages: 12829842, 978-3-642-11431-1
2011
Seitenzahl: 460
Erscheinungstermin: 18. Juni 2011
Englisch
Abmessung: 241mm x 160mm x 30mm
Gewicht: 830g
ISBN-13: 9783642114311
ISBN-10: 3642114318
Artikelnr.: 28438974
Inhaltsangabe
Actinide - nanoparticle interaction. Generation, stability and mobility.- Section 1. Methods for actinide nanoparticle characterization: Scanning transmission electron microscopy and related techniques for research on actinide and radionuclide nanomaterials.- Resonant inelastic soft x-ray scattering spectroscopy of light-actinide materials.- Characterization of colloid borne actinides by Flow Field-Flow Fractionation (FlFFF) Multi Detector Analysis (MDA).- Actinide nanoparticle characterization by mass spectrometry.- Synchrotron-based X-ray spectromicroscopy of organic nanoparticles complexing actinides.- Section 2. Modeling of actinide nanoparticle structure and behavior: From molecules to nano-particles - A computational chemist's point of view.- Theoretical analysis of colloid-facilitated transport of radionuclides by groundwater.- Section 3. Interfacial phenomena and formation of actinide nanoparticles: Nanoscale chemistry of uranyl selenates.- Actinide thin films as surface models.- Sorption and speciation of uranium on silica colloids.- Section 4. Environmental behavior of actinide colloids and nanoparticles: Radioactive particles released into the environment from nuclear events.- Effect of redox conditions on actinide speciation and partitioning with colloidal matter.- X-ray absorption spectroscopy of plutonium particles at the Rocky Flats US Nuclear Weapons Production Site.- Colloid facilitated transport of plutonium at the Nevada Test Site, NV USA.- Speciation of actinides ingranite subjected to tracer studies.
Actinide – nanoparticle interaction. Generation, stability and mobility.- Section 1. Methods for actinide nanoparticle characterization: Scanning transmission electron microscopy and related techniques for research on actinide and radionuclide nanomaterials.- Resonant inelastic soft x-ray scattering spectroscopy of light-actinide materials.- Characterization of colloid borne actinides by Flow Field-Flow Fractionation (FlFFF) Multi Detector Analysis (MDA).- Actinide nanoparticle characterization by mass spectrometry.- Synchrotron-based X-ray spectromicroscopy of organic nanoparticles complexing actinides.- Section 2. Modeling of actinide nanoparticle structure and behavior: From molecules to nano-particles – A computational chemist’s point of view.- Theoretical analysis of colloid-facilitated transport of radionuclides by groundwater.- Section 3. Interfacial phenomena and formation of actinide nanoparticles: Nanoscale chemistry of uranyl selenates.- Actinide thin films as surface models.- Sorption and speciation of uranium on silica colloids.- Section 4. Environmental behavior of actinide colloids and nanoparticles: Radioactive particles released into the environment from nuclear events.- Effect of redox conditions on actinide speciation and partitioning with colloidal matter.- X-ray absorption spectroscopy of plutonium particles at the Rocky Flats US Nuclear Weapons Production Site.- Colloid facilitated transport of plutonium at the Nevada Test Site, NV USA.- Speciation of actinides ingranite subjected to tracer studies.
Actinide - nanoparticle interaction. Generation, stability and mobility.- Section 1. Methods for actinide nanoparticle characterization: Scanning transmission electron microscopy and related techniques for research on actinide and radionuclide nanomaterials.- Resonant inelastic soft x-ray scattering spectroscopy of light-actinide materials.- Characterization of colloid borne actinides by Flow Field-Flow Fractionation (FlFFF) Multi Detector Analysis (MDA).- Actinide nanoparticle characterization by mass spectrometry.- Synchrotron-based X-ray spectromicroscopy of organic nanoparticles complexing actinides.- Section 2. Modeling of actinide nanoparticle structure and behavior: From molecules to nano-particles - A computational chemist's point of view.- Theoretical analysis of colloid-facilitated transport of radionuclides by groundwater.- Section 3. Interfacial phenomena and formation of actinide nanoparticles: Nanoscale chemistry of uranyl selenates.- Actinide thin films as surface models.- Sorption and speciation of uranium on silica colloids.- Section 4. Environmental behavior of actinide colloids and nanoparticles: Radioactive particles released into the environment from nuclear events.- Effect of redox conditions on actinide speciation and partitioning with colloidal matter.- X-ray absorption spectroscopy of plutonium particles at the Rocky Flats US Nuclear Weapons Production Site.- Colloid facilitated transport of plutonium at the Nevada Test Site, NV USA.- Speciation of actinides ingranite subjected to tracer studies.
Actinide – nanoparticle interaction. Generation, stability and mobility.- Section 1. Methods for actinide nanoparticle characterization: Scanning transmission electron microscopy and related techniques for research on actinide and radionuclide nanomaterials.- Resonant inelastic soft x-ray scattering spectroscopy of light-actinide materials.- Characterization of colloid borne actinides by Flow Field-Flow Fractionation (FlFFF) Multi Detector Analysis (MDA).- Actinide nanoparticle characterization by mass spectrometry.- Synchrotron-based X-ray spectromicroscopy of organic nanoparticles complexing actinides.- Section 2. Modeling of actinide nanoparticle structure and behavior: From molecules to nano-particles – A computational chemist’s point of view.- Theoretical analysis of colloid-facilitated transport of radionuclides by groundwater.- Section 3. Interfacial phenomena and formation of actinide nanoparticles: Nanoscale chemistry of uranyl selenates.- Actinide thin films as surface models.- Sorption and speciation of uranium on silica colloids.- Section 4. Environmental behavior of actinide colloids and nanoparticles: Radioactive particles released into the environment from nuclear events.- Effect of redox conditions on actinide speciation and partitioning with colloidal matter.- X-ray absorption spectroscopy of plutonium particles at the Rocky Flats US Nuclear Weapons Production Site.- Colloid facilitated transport of plutonium at the Nevada Test Site, NV USA.- Speciation of actinides ingranite subjected to tracer studies.
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