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The groundbreaking text on the impact of nanomaterials on the environment – completely updated to reflect the latest breakthroughs and developments

Co-written by a team of leading experts from around the world, Environmental Nanotechnology provides a thorough look at nanomaterial technologies, their use in engineering applications, and their effect on the environment. The Second Edition expertly addresses the rapid and extensive developments that have taken place in this area over the past decade. Since the release of the first edition, much more has been learned about the impact of nanomaterials on organisms and ecosystems. Methods have been developed where there were few accepted procedures in the past. Thinking has evolved to consider the life cycle effects of nanomaterial production, and tools for risk forecasting are now under development.

The Second Edition of Environmental Nanotechnology has been extensively updated and revised to capture these cutting-edge advances in all-new chapters that include Ecotoxicology Principles for Manufactured Nanomaterials, Nanomaterials in Ecosystems, Risk Forecasting and Life-Cycle Considerations, and Nanotechnology Governance for Sustainable Science and Policy.

Sections Include:
• Overview (Nanotechnology and the Environment)
• Principles and Methods
• Environmental Applications of Nanomaterials
• Environmental Implications

Environmental Nanotechnology will prove invaluable in helping to address the challenges associated with meeting society’s needs for energy and materials in an environmentally responsible fashion.

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Cowritten by leaders of two of the most prominent research groups in the world considering the effects of nanomaterials on the environment, this timely, advanced resource features 75% new material and offers comprehensive coverage of the impacts of nanomaterials on organisms and ecosystems and their applications within industry.
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INTRODUCTION
Ch 1. Nanotechnology and the Environment
Ch 2. Natural, Incidental, and Engineered Nanoparticles
PRINCIPLES
Ch 3. Nanomaterial fabrication
Ch 4.Characterization & metrology / Characterization in complex media
Ch 5. Interfacial processes and transport / Principles of nanoparticle transport
Ch 6. Transformations / Nanoparticle transformations, aging, degradation, adsorption, redox, dissolution
Ch 7. Adsorption and catalysis
Ch 8. Photocatalytic nanoparticles
Ch 9. Ecotoxicology + toxicology assessment / Principles for assessing biocompatibility and toxicity
ENVIRONMENTAL APPLICATIONS
Ch 10. Nano & groundwater
Ch 11. Nano & membranes
Ch 12. Sensors
Ch 13. Energy
ENVIRONMENTAL IMPLICATIONS – Exposure & Hazard
Ch 14. Risk-Overview-Update – value chain, risk characterization, forecasting
Ch 15. Exposure: (a) sources (b) environmental fate – air, water, soil, sediment
Ch 16. Intermedia transfers
Ch 17. Biouptake, biodistributions, biotransformations
Ch 18. Hazards: (a) human toxicology (b) ecotoxicology (c) systemic hazards & ecosystems
SCIENCE, ENGINEERING, & SOCIETY
Ch 19. LCA-Nanomaterial production and use from a life-cycle perspective / Nanomaterials in products
Ch 20. Risk forecasting
Ch 21. Case studies
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Produktdetaljer

ISBN
9780071828444
Publisert
2016-11-16
Utgave
2. utgave
Utgiver
Vendor
McGraw-Hill Professional
Vekt
1243 gr
Høyde
285 mm
Bredde
221 mm
Dybde
28 mm
Aldersnivå
P, U, 06, 05
Språk
Product language
Engelsk
Format
Product format
Innbundet
Antall sider
416

Biographical note

Mark R. Wiesner, professor of Civil & Environmental Engineering at Duke University, has been a pioneer in the applications of nanomaterials to membrane science and water treatment and in examining possible risks posed by these materials to human health and the environment. He serves as Director of the National Science Foundation/USEPA funded Center for the Environment Implications of NanoTechnology (CEINT).

Jean-Yves Bottero leads the International Consortium for the Environmental Implications of NanoTechnology (iCEINT) and an associated French-sponsored eight-year effort on the topic, SERENADE. He is head of France's Geoscience and Environmental Laboratory and specializes in the physical chemistry of organic, inorganic, and heterogeneous contaminants; the physicochemical properties of surfaces; mechanisms of coagulation and flocculation; and water and wastewater treatment.