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|a Advanced materials for sustainable environmental remediation :
|b terrestrial and aquatic environments /
|c edited by Dimitrios Giannakoudakis, Lucas Meili and Ioannis Anastopoulos.
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| 260 |
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|a Amsterdam, Netherlands :
|b Elsevier,
|c 2022.
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| 300 |
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|a 1 online resource
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|a text
|b txt
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|a Includes index.
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|a Front cover -- Half title -- Title -- Copyright -- Dedication -- Contents -- Contributors -- About the editors -- Acknowledgments -- Chapter 1 Trends in advanced materials for sustainable environmental remediation -- 1.1 Environmental pollution and role of materials in its remediation -- 1.2 Strategies for environmental remediation -- 1.3 Present challenges and future prospects for utilization of advanced materials in sustainable environmental remediation -- Conclusion -- References -- Chapter 2 Potential of MOF-based novel adsorbents for the removal of aquatic pollutants -- 2.1 Introduction
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|a 2.2 Various forms of aquatic pollutants -- 2.3 Traditional approaches for the treatment of aquatic pollutants -- 2.4 Overview of MOFs -- 2.4.1 Properties of MOFs and its synthesis -- 2.4.2 MOFs as an adsorbent -- 2.5 Applications of MOFs for the treatment of aquatic pollutants -- 2.5.1 Application of MOFs for the adsorption of heavy metals -- 2.5.2 MOFs for the adsorption of pharmaceuticals and personal products -- 2.5.3 MOFs for the adsorption of pesticides and other organic compounds -- 2.6 Large-scale production of the MOFs -- 2.7 Challenges and future directives -- Conclusions -- References
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|a Chapter 3 Metal-organic frameworks for the prolific purification of hazardous airborne pollutants -- 3.1 Introduction -- 3.2 Structural features of MOFs -- 3.3 Synthesis of MOFs -- 3.4 Adsorptive purification of airborne pollutants -- 3.4.1 Toxic industrial gas -- 3.4.2 Volatile organic compound (VOC) -- 3.4.3 Greenhouse gas -- 3.4.4 Particulate matter -- 3.4.5 Radioactive nuclide -- 3.4.6 Hg0 -- 3.4.7 Chemical warfare agent -- 3.5 Innovative strategies for performance enhancement -- 3.5.1 Chemical functionalization -- 3.5.2 Pore size and shape control -- 3.5.3 MOF-derived composites
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|a 3.6 Comparison with commercial adsorbents -- 3.7 Regeneration and reusability -- 3.8 Prospects and challenges -- 3.9 Conclusion -- References -- Chapter 4 MOF-based materials as soil amendments -- 4.1 Introduction -- 4.2 Classification and toxicity of soil pollutants -- 4.2.1 Heavy metals -- 4.2.2 Organophosphorus pesticides -- 4.2.3 Polychlorinated biphenyls -- 4.2.4 Polyaromatic hydrocarbons -- 4.2.5 Endocrine disruptors -- 4.3 Overview of available methods to identify/remove soil pollutants -- 4.3.1 Preconcentration techniques -- 4.3.2 Sensing applications
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|a 4.3.3 Treatment techniques for soil pollutants -- 4.4 Prerequisite structural advantages of MOFs and their composites -- 4.4.1 Synthesis and fabrication process of MOFs for extraction of soil pollutant -- 4.4.2 Synthesis of MOFs for sensing applications -- 4.5 MOFs as an efficient tool for soil remediation -- 4.5.1 Extraction of soil contaminants -- 4.5.2 Adsorption -- 4.5.3 Sensing applications -- 4.6 Confronts and future scope of this technology -- Conclusions -- References -- Chapter 5 Metal-organic frameworks (MOFs) as a catalyst for advanced oxidation processes-Micropollutant removal
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| 590 |
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|a ScienceDirect eBook - Environmental Science 2022 [EBCES22]
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| 650 |
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|a Bioremediation.
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| 650 |
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|a Materials
|x Environmental aspects.
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| 700 |
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|a Giannakoudakis, Dimitrios.
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|a Meili, Lucas.
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|a Anastopoulos, Ioannis.
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