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Elsevier

Advanced Materials for Sustainable Environmental Remediation

Terrestrial and Aquatic Environments

  • 1st Edition - April 21, 2022
  • Latest edition
  • Editors: Dimitrios A Giannakoudakis, Lucas Meili, Ioannis Anastopoulos
  • Language: English

Advanced Materials for Sustainable Environmental Remediation: Terrestrial and Aquatic Environments presents detailed, comprehensive coverage of novel and advanced materials… Read more

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Description

Advanced Materials for Sustainable Environmental Remediation: Terrestrial and Aquatic Environments presents detailed, comprehensive coverage of novel and advanced materials that can be applied to address the growing global concern of the pollution of natural resources in waters, the air and soil. It provides fundamental knowledge on available materials and treatment processes, as well as applications, including adsorptive remediation and catalytic remediation. Organized clearly by type of material, this book presents a consistent structure for each chapter, including characteristics of the materials, basic and important physicochemical features for environmental remediation applications, routes of synthesis, recent advances as remediation medias, and future perspectives.

This book offers an interdisciplinary and practical examination of available materials and processes for environmental remediation that will be valuable to environmental scientists, materials scientists, environmental chemists, and environmental engineers alike.

Key features

  • Highlights a wide range of synthetic methodologies, physicochemical and engineered features of novel materials and composites/hybrids for environmental purposes
  • Provides comprehensive, consolidated coverage of advanced materials for environmental remediation applications for researchers in environmental science, materials science, and industry to identify in-depth solutions to pollution
  • Presents up-to-date details of advanced materials, including descriptions and characteristics that impact their applications in environmental remediation processes

Readership

Researchers and graduate students working in environmental remediation. Materials scientists, chemical engineers, green/environmental chemists

Table of contents

1. Introduction: Trends in Advanced Materials for Sustainable Environmental Remediation Applications: Adsorption and beyond

Section A. Metal Organic Frameworks

2. MOFs based novel adsorbents for aquatic pollutants

3. MOFs based materials for gaseous adsorption

4. MOFs based materials as soil amendments

5. MOFs as catalysts for advanced oxidation processes

Section B. Oxides/Hydroxides

6. Layered double hydroxides: from fundamentals to environmental applications

7. Zeolites for environmental purposes

8. Silica based materials

9. TiO2 based photocatalysts against organics

Section C. Carbonaceous Materials

10. Biochar and Activated Carbon

11. Graphene related materials

12. Carbon Quantum Dots

13. Carbon nanotubes

14. Biomass derived materials (like Agricultural waste/biomass)

Section D. Special Classes of Materials

15. Magnetic Materials

16. MXenes

17. Aerogels, Cryogels and Xerogels

18. ZIFs from adsorptive to catalytic remediation applications

19. Synthetic and natural clay-based materials

20. Graphitic carbon nitride: triggering the solar light assisted decomposition of hazardous organics

Product details

  • Edition: 1
  • Latest edition
  • Published: April 21, 2022
  • Language: English

About the editors

DA

Dimitrios A Giannakoudakis

Dr. Dimitrios A. Giannakoudakis obtained his PhD at the City University of New York, New York City, United States (February 2017). Nowadays, he serves as an assistant professor at the University Marie Curie Sklodowska (UMCS), Lublin, Poland. His research is focused on the development of composite porous nanomaterials for (photo)(sono)(piezo)catalytic technologies for biomass valorization and (micro)plastics upcycling to green chemicals, as well as for air and water purification, linking physicochemical properties to performance and involved mechanisms. He coauthored more than 140 articles, 1 monograph, 7 edited books, and 17 book chapters with over 7000 citations. Since 2021, he has been included in the Top 2% Most Influential Scientists worldwide (Stanford list, Elsevier).

Affiliations and expertise
Assistant Professor, University Marie Curie Sklodowska (UMCS), Lublin, Poland

LM

Lucas Meili

Lucas Meili is Professor in the Center of Technology at the Federal University of Alagoas, Maceió, Brazil. His areas of interest are focused in separation processes, water and wastewater treatment, and synthesis of materials, with a particular interest in adsorption and advanced oxidation processes.
Affiliations and expertise
Professor, Center of Technology, Federal University of Alagoas, Brazil

IA

Ioannis Anastopoulos

Dr. Ioannis Anastopoulos is an associate professor at the Department of Agriculture, University of Ioannina, Arta, Greece. He has conducted postdoctoral research at the Agricultural Research Institute (Cyprus), the University of Patras (Greece), the University of Cyprus (Cyprus), and the Hellenic Mediterranean University (Greece). His research focuses on the estimation of greenhouse gas emissions from agricultural soils following the application of organic and inorganic materials, the development of adsorbent materials for wastewater treatment, and the use of organic amendments for soil remediation. He has authored more than 130 articles in peer-reviewed journals with over 12,000 citations and has been included among the Top 2% Scientists worldwide for the years 2019–24 (Stanford list, Elsevier).

Affiliations and expertise
Associate Professor, Department of Agriculture, University of Ioannina, Arta, Greece

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