Emerging Natural and Tailored Nanomaterials for Radioactive Waste Treatment and Environmental Remediation

Principles and Methodologies

Paperback Engels 2019 9780081027271
€ 229,00
Levertijd ongeveer 9 werkdagen
Gratis verzonden

Samenvatting

Emerging Natural and Tailored Nanomaterials for Radioactive Waste Treatment and Environmental Remediation: Principles and Methodologies, Volume 29 provides an overview of the most important radionuclide sources in the environment, their interaction with environmental media, and appropriate remediation techniques. The book focuses on the assessment of radionuclide sorption behavior in contaminated sites and the synthesis of new materials for radionuclides remediation through sorption concepts. Chapters investigate the main interaction mechanisms between toxic/radioactive metal ions with natural and manmade materials, natural clay minerals and oxides, and novel nanomaterials, such as ordered mesoporous silicas, carbon nanotubes, graphene, and metal-organic framework-based materials.

Techniques and models discussed include kinetics analysis, thermodynamic analysis, surface complexation models, spectroscopic techniques, and theoretical calculations.

Specificaties

ISBN13:9780081027271
Taal:Engels
Bindwijze:Paperback

Lezersrecensies

Wees de eerste die een lezersrecensie schrijft!

Inhoudsopgave

<p>1. Radionuclides immobilization on Phyllosilicate minerals: Sorption, modelling and microscopies studies<br>2. Interactions between radionuclides and oxides-water interfaces in the environment<br>3. Microorganisms and radionuclides<br>4. Adsorption of radionuclides on ordered mesoporous silicas<br>5. Adsorption of radionuclides on carbon-based nanomaterials<br>6. Removal of toxic/radioactive metal ions by metal-organic framework-based materials<br>7. Application of NZVI and its composites in the treatment of toxic and radioactive metal ions</p>

Managementboek Top 100

€ 229,00
Levertijd ongeveer 9 werkdagen
Gratis verzonden

Rubrieken

    Personen

      Trefwoorden

        Emerging Natural and Tailored Nanomaterials for Radioactive Waste Treatment and Environmental Remediation