Nanotechnology applications for clean water : solutions for improving water quality

Nanotechnology applications for clean water solutions for improving water quality

Nanotechnology is already having a dramatic impact on improving water quality and the second edition of Nanotechnology Applications for Clean Water highlights both the challenges and the opportunities for nanotechnology to positively influence this area of environmental protection. This book presen...

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Detalles Bibliográficos
Otros Autores: Street, Anita, author (author), Street, Anita, editor (editor)
Formato: Libro electrónico
Idioma:Inglés
Publicado: Oxford : Elsevier 2014.
Edición:2nd ed
Colección:Micro & nano technologies.
Materias:
Water-supply engineering > Technological innovations.
Water > Purification > Technological innovations.
Water > Pollution > Prevention.
Nanotechnology.
Nanostructured materials.
Ver en Biblioteca Universitat Ramon Llull:https://discovery.url.edu/permalink/34CSUC_URL/1im36ta/alma991009628449906719
Tabla de Contenidos:
  • Front Cover; Nanotechnology Applications for Clean Water; Copyright Page; Contents; List of Contributors; Foreword; Preface; Introduction; Organization and content; Disclaimer; Acknowledgment; Introduction: Water Purification in the Twenty-First Century-Challenges and Opportunities; I.1 Current water issues; I.2 Water purification: impacts and opportunities; I.2.1 Water-environment nexus; I.2.2 Water-energy nexus; I.2.3 Water-food nexus; I.2.4 Water-health nexus; I.2.5 Water-economy nexus; I.2.6 Water-security nexus; I.3 Critical problems to be addressed in water research
  • I.3.1 Availability and sourcewater protectionI.3.2 New water supplies; I.3.3 Contaminant detection and selective decontamination/removal; I.3.4 Pathogen deactivation and removal; I.3.5 Conservation and reuse; I.3.6 Scalability, ramp-up, and technology diffusion; I.4 Conclusion; References; 1 Contaminant Sensing Technologies; 1 Sensors Based on Carbon Nanotube Arrays and Graphene for Water Monitoring; 1.1 Introduction; 1.2 CNT-based electrochemical sensors; 1.2.1 Various methods for preparation of CNT-based sensors; 1.2.2 Fabrication of aligned CNT NEA
  • 1.2.3 Applications of CNT-based sensors for metal ion monitoring1.3 Graphene-based sensors; 1.3.1 Graphene-based electrochemical sensors; 1.3.2 Graphene sensors for pesticides; 1.3.3 Graphene sensors for other pollutants; 1.4 Conclusions and future work; Acknowledgments; References; 2 Advanced Nanosensors for Environmental Monitoring; 2.1 Introduction; 2.2 Nanostructured sensing materials developed; 2.2.1 Incorporation of metal nanoparticles in photopolymerized organic conducting polymers; 2.2.1.1 Polymerization mechanism; 2.2.1.2 Polypyrrole films for vapor sensing
  • 2.2.2 Nanostructured PAA membranes as novel electrode materials2.3 Chemical sensor arrays and pattern recognition; 2.3.1 Data processing, pattern recognition, and support vector machines; 2.3.2 Integration of sensor array with chromatographic systems; 2.4 Biosensing applications of nanostructured materials; 2.4.1 Biosensors for polychlorinated biphenyls; 2.4.2 Endocrine disrupting chemicals, chlorinated organics, and other analytes; 2.4.2.1 Biosensors for polyphenols and other analytes; 2.4.2.2 Biosensors for EDCs
  • 2.4.3 Multiarray electrochemical sensors for monitoring pathogenic bacteria, cell viability, and antibiotic susceptibility2.5 Conclusions and future perspectives; Acknowledgments; References; 3 Electrochemical Biosensors Based on Nanomaterials for Detection of Pesticides and Explosives; 3.1 Introduction; 3.2 Nanomaterials-based biosensors for pesticides; 3.2.1 Biosensor based on AChE; 3.2.1.1 Principle of electrochemical biosensor for OPs; 3.2.2 Biosensor based on ChO/AChE bienzyme
  • 3.2.2.1 The preparation of OP biosensors based on immobilization of CHO/AChE bienzymes on CNTs thin-film electrode

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