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Elsevier

Smart Anticorrosive Materials

Trends and Opportunities

  • 1st Edition - March 28, 2023
  • Latest edition
  • Editors: Chandrabhan Verma, Vandana Srivastava, Taiwo W. Quadri, Eno E. Ebenso, Chaudhery Mustansar Hussain
  • Language: English

Smart Anticorrosive Materials: Trends and Opportunities covers new developments in nanoscale coatings and their current applications. The book addresses fundamental charac… Read more

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Description

Smart Anticorrosive Materials: Trends and Opportunities covers new developments in nanoscale coatings and their current applications. The book addresses fundamental characteristics, synthesis, inhibition mechanisms and applications of green nanomaterials for educational (academic) as well as industrial purposes and provides a chronological overview of the growth of the field. The book concludes with discussions about commercialization, economics and environmental considerations. This will be an indispensable reference for scholars, chemical engineers, chemists and materials scientists working in R&D and academia who want to understand corrosion systems and modern advancements on smart coatings.

Key features

  • Presents current research and the latest developments in corrosion protection and future opportunities, along with anticorrosive effects of nanomaterials and nanocomposites
  • Focuses on advanced nanomaterials and nanocomposites coatings for industry-oriented practices, including current challenges during manufacturing
  • Includes websites of interest and information the about latest research

Readership

Chemical engineers and chemists in R&D and academia working on corrosion systems and especially on modern advancements on smart coatings

Students, scientists, college and university professors, research professionals, technology investors and developers, research enterprises, R&D and defense research laboratories, academic and research libraries in the fields of chemical engineering, chemistry, materials science and engineering, nanotechnology, energy, environment, colloid science, etc.
Libraries in universities and industrial institutions, government and independent institutes, individual research groups and scientists working in the field of smart coatings

Table of contents

Section 1: Basics of corrosion and nanomaterials

1. An overview of Corrosion

    1. Introduction

    2. Economic impact of corrosion

    3. Thermodynamics of corrosion

    4. Methods of corrosion control

    5. Conclusions

    6. References

2. Nanomaterials

    1. Introduction

    2. Classification of nanomaterials

    3. Synthesis of nanomaterials

    4. Salient features of nanomaterials

    5. Conclusions

    6. References

3. Nanocomposites

    1. Introduction

    2. Classification of nanocomposites

    3. Synthesis of nanocomposites

    4. Salient features of nanocomposites

    5. Conclusions

    6. References

4. Corrosion monitoring of nanocomposites coatings

4.1 Introduction

4.2 Electrochemical techniques for corrosion assessment of nanocomposite coatings

4.3 Analytical techniques for corrosion assessment of nanocomposite coatings

4.4 Recent advances in surface coating techniques

4.5 Conclusions

4.6 References

Section 2. Organic nanomaterials as anticorrosive materials

5: Production and corrosion protection properties of carbon nanotubes (CNTs)

    1. Introduction

    2. Methods of production of carbon nanotubes

    3. Recent advances in the applications of carbon nanotubes as anticorrosive materials

    4. Future implications and conclusions

    5. References

6: Fullerenes as anticorrosive coating materials

    1. Introduction

    2. Synthesis of fullerenes and fullerene-based nanomaterials

    3. Current trends in corrosion protection using fullerenes

    4. Future implications and conclusions

    1. References

7: Synthesis and anticorrosive application of graphene and graphene-based materials

7.1 Introduction

7.2 Synthetic methods of graphene and graphene-based materials

7.3 Application of graphene and graphene-based materials as anticorrosive agents

7.4Future implications and conclusions

7.5 References

8: Corrosion protection properties of nanocontainers

8.1. Introduction

8.2. Overview of nanocontainers as anticorrosive materials

8.3. Recent developments in the applications of nanocontainers as anticorrosive materials

8.4. Future implications and conclusions

8.5. References

9: Carbon dots for active corrosion protection of industrial metal

9.1. Introduction

9.2. Synthesis of carbon dots and carbon dots-based nanomaterials

9.3. Applications and case studies of carbon dots as anticorrosive materials

9.4. Future implications and conclusions

9.5. References

Section 3. Inorganic nanomaterials as anticorrosive coatings

10: Corrosion resistance of gold and gold oxides nanomaterials

10.1. Introduction

10.2. Synthesis and characterization of gold-based anticorrosive materials

10.3. Progress in gold-based nanomaterials as anticorrosive coatings

10.4. Future predictions and conclusions

10.5. References

11: Corrosion protection properties of iron oxides nanomaterials for industrial metals

11.1. Introduction

11.2. Synthetic route for iron oxide nanomaterials

11.3. Corrosion protection properties of iron oxide nanomaterials

11.4. Future predictions and conclusions

11.5. References

12: Anticorrosive properties of copper oxide in aggressive media

12.1. Introduction

12.2. Production methods of copper oxides

12.3. Application of copper oxide nanomaterials in anticorrosive coatings

12.4. Future predictions and conclusions

12.5. References

13: Development of titanium oxides as anticorrosive coatings for corrosion protection

13.1. Introduction

13.2. Preparation of titanium oxide composites as anticorrosive materials

13.3. Recent advances in the corrosion protection properties of titanium oxides

13.4. Future predictions and conclusions

13.5. References

14: Preparation and characterization of zinc oxides as anticorrosive materials

14.1. Introduction

14.2. Synthesis and characterization of zinc oxide nanocomposite coating

14.3. Recent developments in the use of zinc oxide as anticorrosive materials

14.4. Future predictions and conclusions

14.5. References

Section 4. Hybrid nanocomposites as anticorrosive materials

15: Organic-organic mixed nanocomposites as anticorrosive coatings

15.1. Introduction

15.2. Case studies and applications of organic-organic nanocomposite coatings

15.3. Current trends in organic-organic mixed nanocomposite coatings

15.4. Future predictions and conclusions

15.5. References

16: Organic-inorganic mixed nanocomposites as corrosion protection coatings

16.1. Introduction

16.2. Overview of organic-inorganic mixed nanocomposite coatings

16.3. Progress in organic-inorganic mixed nanocomposite coatings

16.4. Future predictions and conclusions

16.5. References

17: Inorganic-inorganic mixed nanocomposites as anticorrosive coatings

17.1. Introduction

17.2. Literature review of inorganic-inorganic mixed nanocomposite coatings

17.3. Recent advances of inorganic-inorganic mixed nanocomposite coatings

17.4. Future predictions and conclusions

17.5. References

Section 5: Environmentaly friendly aspects of corrosion inhibition

18: Economics and commercialization of anticorrosive nanomaterials

18.1. Introduction

18.2. Case studies in economics and commercialization of protective coatings

18.3. Current trends in economics and commercialization of coatings

18.4. Conclusions and future outlook

18.5. References

19: Toxicological and safety risk prospects of anticorrosive nanomaterials

19.1. Introduction

19.2. Overview of toxicological and safety studies of smart coatings

19.3. Corrosion protective coatings: toxicological and safety risk perspectives

19.4. Conclusions and future outlook

19.5. References

20: Environmentally responsible and sustainable polymer nanocomposites as anticorrosive coatings

20.1. Introduction

20.2. Synthesis of sustainable polymer nanocomposite coatings

20.3. Case Studies and applications of sustainable polymer nanocomposite coatings

20.4. Conclusions and future outlook

20.5. References

21: Green nanomaterials and their anti-corrosive properties

21.1. Introduction

21.2. Preparation of green nanomaterials

21.3. Corrosion resistance of green nanomaterials in corrosive media

21.4. Conclusions and outlook

21.5. References

Product details

  • Edition: 1
  • Latest edition
  • Published: March 29, 2023
  • Language: English

About the editors

CV

Chandrabhan Verma

Chandrabhan Verma, PhD, works at the Interdisciplinary Research Center for Advanced Materials, King Fahd University of Petroleum and Minerals, Dhahran, Saudi Arabia. He is a member of the American Chemical Society (ACS). His research interests mainly focus on the synthesis and design of environment-friendly corrosion inhibitors used for several industrial applications. Dr. Verma received his PhD degree from the Department of Chemistry at IITBHU, Varanasi, India and MSc degree in organic chemistry (Gold Medalist). Dr. Verma is the author of several research and review articles in peer-reviewed international journals. He has also received several national and international awards for his academic achievements.

Affiliations and expertise
Researcher, Department of Chemical and Petroleum Engineering, Khalifa University, Abu Dhabi, United Arab Emirates

VS

Vandana Srivastava

Vandana Srivastava is a Full Professor in the Department of Chemistry, Indian Institute of Technology (Banaras Hindu University), Varanasi-221005, India. Her research areas include Synthetic Organic Chemistry, Carbohydrate Chemistry, Immunochemistry and Tribology. She has attended various national and international conferences and seminars as an invited speaker. She has received various awards for her academic achievements and is also a member of editorial boards of several journals. She has successfully guided many PhD students.
Affiliations and expertise
Full Professor, Department of Chemistry, Indian Institute of Technology (Banaras Hindu University), Varanasi, India

TQ

Taiwo W. Quadri

Taiwo W. Quadri is a research scholar in the Department of Chemistry, Faculty of Natural and Agricultural Sciences, School of Chemical and Physical Sciences, North-West University, Private Bag X2046, Mmabatho 2735, South Africa. His research interest is development of effective anticorrosive materials for metallic corrosion control in various aggressive media. He has published various research articles in peer-reviewed international journals. He has also received several awards. He is a member of International Union of Pure and Applied Chemistry (IUPAC)
Affiliations and expertise
Research Scholar, Department of Chemistry, Faculty of Natural and Agricultural Sciences, School of Chemical and Physical Sciences, North-West University, Mmabatho, South Africa

EE

Eno E. Ebenso

Eno E. Ebenso, PhD is a Full Professor in the Institute for Nanotechnology and Water Sustainability, College of Science, Engineering and Technology, University of South Africa, Johannesburg, South Africa. His research is focused on inhibition of metallic corrosion inhibition using synthetic and natural corrosion inhibitors. Prof. Ebenso is author of more than 450 articles in peer-reviewed journals of Elsevier, Royal Society of Chemistry, Wiley and Springer etc. Prof. Ebenso has received several national and international awards for his academic achievements, and he is a member of editorial boards of several journals.
Affiliations and expertise
Full Professor, Institute for Nanotechnology and Water Sustainability, College of Science, Engineering and Technology, University of South Africa, Johannesburg, South Africa

CM

Chaudhery Mustansar Hussain

Prof. Chaudhery Mustansar Hussain, PhD, is an adjunct professor and director of laboratories in the Department of Chemistry & Environmental Sciences at the New Jersey Institute of Technology (NJIT), Newark, New Jersey, United States. His research focuses on sustainability, the applications of nanotechnology and advanced materials, environmental management, analytical chemistry and other various industries. Dr. Hussain is the author of numerous papers in peer-reviewed journals as well as a prolific author and editor of around 200 books, including scientific monographs and handbooks in his research areas. He has published with ELSEVIER, American Chemical Society, Royal Society of Chemistry, John Wiley & Sons, CRC Press, and Springer.

Affiliations and expertise
Adjunct Professor and Director of Chemistry & EVSC Labs, Department of Chemistry and Environmental Science, New Jersey Institute of Technology (NJIT), Newark, NJ, USA

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