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  • 1
    Book
    Book
    Environmental applications of nanomaterials : synthesis, sorbents and sensors (2007)
    London :Imperial College Press,
    Details
    UID:
    almahu_BV022787420
    Format: XI, 507 S. : , Ill., graph. Darst.
    ISBN: 1-86094-662-3 , 978-1-86094-663-9 , 1-86094-663-1 , 978-1-86094-662-2
    Language: English
    Subjects: Chemistry/Pharmacy
    RVK:
    VE 9850
    Keywords: Nanotechnologie ; Nanoporöser Stoff ; Chemische Synthese ; Umweltfaktor ; Nanopartikel ; Sorptionsmittel ; Nanostrukturiertes Material ; Umweltüberwachung ; Schadstoffbelastung ; Sensor ; Aufsatzsammlung
    URL: Inhaltsverzeichnis
    URL: Inhaltsverzeichnis
    URL: Inhaltstext
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  • 2
    Online Resource
    Online Resource
    Environmental applications of nanomaterials : synthesis, sorbents and sensors (2007)
    London :Imperial College Press,
    Details
    UID:
    almahu_9948311246002882
    Format: xi, 507 p. : , ill.
    Edition: Electronic reproduction. Ann Arbor, MI : ProQuest, 2015. Available via World Wide Web. Access may be limited to ProQuest affiliated libraries.
    Language: English
    Keywords: Electronic books.
    URL: Click to View
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    Online Resource
    HU Berlin
  • 3
    Online Resource
    Online Resource
    Environmental applications of nanomaterials : synthesis, sorbents and sensors (2012)
    London :Imperial College Press,
    Details
    UID:
    edocfu_9959228411902883
    Format: 1 online resource (751 p.)
    Edition: 2nd ed.
    ISBN: 1-283-59353-X , 9786613905987 , 1-84816-805-5
    Content: This book is concerned with functional nanomaterials, materials containing specific, predictable nanostructures whose chemical composition, or interfacial structure enables them to perform a specific job: to destroy, sequester, or detect some material that constitutes an environmental threat. Nanomaterials have a number of features that make them ideally suited for this job: they have a high surface area, high reactivity, easy dispersability, and rapid diffusion, to name a few. The purpose of this book is to showcase how these features can be tailored to address some of the environmental remed
    Note: Description based upon print version of record. , Preface to the Second Edition; Preface to the First Edition; CONTENTS; Nanoparticle-based Approaches; Chapter 1. Nanoparticle Metal Oxides for Chlorocarbon and Organophosphonate Remediation Olga B. Koper, Shyamala Rajagopalan, Slawomir Winecki and Kenneth J. Klabunde; 1.1 Introduction; 1.2 Environmental Applications of NanoActive Materials; 1.3 Destructive Adsorption of Hazardous Chemicals by Nanocrystalline Metal Oxides; 1.4 Destructive Adsorption of Chemical Warfare Agents (CWAs) by Nanocrystalline Metal Oxides; 1.5 Safety of NanoActive Materials; 1.6 Conclusions; References , Chapter 2. Nanoscale Zero-Valent Iron (nZVI) for Site Remediation Daniel W. Elliott, Hsing-Lung Lien and Wei-xian Zhang2.1 Introduction; 2.2 Overview and ZVI General Process Description; 2.2.1 Applications of ZVI to environmental remediation; 2.2.2 ZVI process description: Chemical fundamentals; 2.2.3 ZVI process description: Mechanistic aspects; 2.2.4 Kinetic models of the ZVI process; 2.3 Overview of Major Methodologies for Synthesizing nZVI; 2.3.1 Type I nZVI using the chloride method; 2.3.2 Types II and III nZVI using the sulfate method; 2.4 Characterization of nZVI , 2.5 Summary of nZVI Research and Applications2.5.1 Laboratory batch studies; 2.5.1.1 Chlorinated hydrocarbons; 2.5.1.2 Hexavalent chromium; 2.5.1.3 Perchlorate; 2.5.2 Field testing demonstration; 2.6 Challenges Ahead; References; Chapter 3. Synthesis, Characterization, and Properties of Zero-Valent Iron Nanoparticles Donald R. Baer, Paul G. Tratnyek, You Qiang, James E. Amonette, John Linehan, Vaishnavi Sarathy, James T. Nurmi, Chongmin Wang and J. Antony; 3.1 Introduction; 3.2 Synthesis; 3.2.1 Vapor-phase nanoparticle synthesis; 3.2.1.1 Flame synthesis; 3.2.1.2 Chemical vapor synthesis , 3.2.1.3 Physical vapor synthesis3.2.1.3.1 Inert gas condensation; 3.2.1.3.2 Pulsed laser ablation; 3.2.1.3.3 Spark discharge generation; 3.2.1.3.4 Sputtering gas-aggregation; 3.2.2 Solution-phase synthesis; 3.2.2.1 Micellar techniques; 3.2.2.2 Hydrothermal synthesis; 3.2.2.3 Post-synthesis processing; 3.3 Particle Handling and Characterization; 3.3.1 Challenges for nanoparticle handling and characterization; 3.3.1.1 General issues; 3.3.1.2 Special issues for reactive metals; 3.3.2 Ex situ examples of iron nanoparticle characterization; 3.3.2.1 Transmission electron microscopy (TEM) , 3.3.2.2 X-ray diffraction (XRD)3.3.2.3 X-ray photoelectron spectroscopy (XPS); 3.3.2.4 Surface area determination; 3.3.2.5 Other methods; 3.4 Methods for Characterizing Reactivity in Solution; 3.4.1 Electron paramagnetic resonance (EPR) spectroscopy; 3.4.2 Electrochemical methods; 3.4.3 Batch and column methods; 3.5 Summary; Acknowledgments; References; Nanostructured Inorganic Materials , Chapter 4. Formation of Nanosized Apatite Crystals in Sediment for Containment and Stabilization of Contaminants Robert C. Moore, Jim Szecsody, Michael J. Truex, Katheryn B. Helean, Ranko Bontchev and Calvin Ainsworth , English
    Additional Edition: ISBN 1-84816-804-7
    Additional Edition: ISBN 1-84816-803-9
    Language: English
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    Online Resource
    FU Berlin
  • 4
    Online Resource
    Online Resource
    Environmental applications of nanomaterials : synthesis, sorbents and sensors (2007)
    London :Imperial College Press,
    Details
    UID:
    edocfu_9959238256302883
    Format: 1 online resource (520 p.)
    Edition: 1st ed.
    ISBN: 1-281-12053-7 , 9786611120535 , 1-86094-857-X
    Content: This volume is concerned with functional nanomaterials: materials containing specific, predictable nanostructure whose chemical composition or interfacial structure enable them to perform a specific job - destroy, sequester or detect some material that constitutes an environmental threat. Nanomaterials have a number of features that make them ideally suited for this job: high surface area, high reactivity, easy dispersability, and rapid diffusion. The purpose of this book is to showcase how these features can be tailored to address some of the environmental remediation and sensing/detection
    Note: Description based upon print version of record. , Foreword; CONTENTS; Nanoparticle Based Approaches; Chapter 1. Nanoparticle Metal Oxides for Chlorocarbon and Organophosphonate Remediation Olga B. Koper, Shyamala Rajagopalan, Slawomir Winecki and Kenneth J. Klabunde; Chapter 2. Nanoscale Zero-Valent Iron (nZVI) for Site Remediation Daniel W. Elliott, Hsing-Lung Lien and Wei-xian Zhang; Chapter 3. Synthesis, Characterization, and Properties of Zero-Valent Iron Nanoparticles D. R. Baer, P. G. Tratnyek, Y. Qiang, J. E. Amonette, J. Linehan, V. Sarathy, J. T. Nurmi, C.-M.Wang and J. Ant; Nanostructured Inorganic Materials , Chapter 4. Formation of Nanosize Apatite Crystals in Sediment for Containment and Stabilization of Contaminants Robert C. Moore, Jim Szecsody, Michael J. Truex, Katheryn B. Helean, Ranko Bontchev and Chapter 5. Functionalized Nanoporous Sorbents for Adsorption of Radioiodine from Groundwater and Waste Glass Leachates S. V. Mattigod, G. E. Fryxell and K. E. Parker; Nanoporous Organic/Inorganic Hybrid Materials; Chapter 6. Nature's Nanoparticles: Group 4 Phosphonates Abraham Clear.eld , Chapter 7. Synthesis of Nanostructured Hybrid Sorbent Materials Using Organosilane Self-Assembly on Mesoporous Ceramic Oxides Glen E. Fryxell Chapter 8. Chemically-Modified Mesoporous Silicas and Organosilicas for Adsorption and Detection of Heavy Metal Ions Oksana Olkhovyk and Mietek Jaroniec; Chapter 9. Hierarchically Imprinted Adsorbents Hyunjung Kim, Chengdu Liang and Sheng Dai; Chapter 10. Functionalization of Periodic Mesoporous Silica and Its Application to the Adsorption of Toxic Anions Hideaki Yoshitake , Chapter 11. A Thiol-Functionalized Nanoporous Silica Sorbent for Removal of Mercury from Actual Industrial Waste S. V. Mattigod, G. E. Fryxell and K. E. Parker Chapter 12. Amine Functionalized Nanoporous Materials for Carbon Dioxide (CO2) Capture Feng Zheng, R. Shane Addleman, Christopher L. Aardahl, Glen E. Fryxell, Daryl R. Brown and Thomas S. Zemanian; Nanomaterials that Enhance Sensing/Detection of Environmental Contaminants; Chapter 13. Nanostructured ZnO Gas Sensors Huamei Shang and Guozhong Cao , Chapter 14. Synthesis and Properties of Mesoporous-Based Materials for Environmental Applications Jianlin Shi, Hangrong Chen, Zile Hua and Lingxia Zhang Chapter 15. Electrochemical Sensors Based on Nanomaterials for Environmental Monitoring Wassana Yantasee, Yuehe Lin and Glen E. Fryxell; Chapter 16. Nanomaterial Based Environmental Sensors Dosi Dosev, Mikaela Nichkova and Ian M. Kennedy; Index , English
    Additional Edition: ISBN 1-86094-663-1
    Additional Edition: ISBN 1-86094-662-3
    Language: English
    Library Location Call Number Volume/Issue/Year Availability
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    Online Resource
    FU Berlin
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