Chapter 12 Recent advances in carbon allotropes nanostructured as anticorrosive coatings
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Seyyed Arash Haddadi
Abstract
Owing to superior characteristics of carbon allotropes, such as excellent thermo-physical properties, high thermal stability, morphological diversity, and high electrical conductivity, they have found great interest in many applications. It has been demonstrated in the literature that the application of carbon allotropes, including graphene family, carbon nanotubes (CNTs), carbon quantum dots (CQDs) and carbon dots (CDs), fullerene, hollow carbon spheres (HCSs), and nanodiamond (ND), in different corrosion protection coating systems can enhance not only anticorrosion resistance but also the tribological and mechanical properties of the coating systems. In addition, the direct application of carbon allotropes on metallic substrates via different methods, such as layer-by-layer deposition and chemical vapor deposition (CVD), offers promising corrosion inhibition impacts in harsh corrosive conditions. In this chapter, the most recent studies on the application of carbon allotropes in anticorrosion materials have been reviewed
Abstract
Owing to superior characteristics of carbon allotropes, such as excellent thermo-physical properties, high thermal stability, morphological diversity, and high electrical conductivity, they have found great interest in many applications. It has been demonstrated in the literature that the application of carbon allotropes, including graphene family, carbon nanotubes (CNTs), carbon quantum dots (CQDs) and carbon dots (CDs), fullerene, hollow carbon spheres (HCSs), and nanodiamond (ND), in different corrosion protection coating systems can enhance not only anticorrosion resistance but also the tribological and mechanical properties of the coating systems. In addition, the direct application of carbon allotropes on metallic substrates via different methods, such as layer-by-layer deposition and chemical vapor deposition (CVD), offers promising corrosion inhibition impacts in harsh corrosive conditions. In this chapter, the most recent studies on the application of carbon allotropes in anticorrosion materials have been reviewed
Chapters in this book
- Frontmatter I
- About the editors V
- Preface VII
- Contents IX
- Chapter 1 Carbon allotropes: properties and applications – state of the art 1
- Chapter 2 Carbon allotropes: synthesis and characterization 33
- Chapter 3 Corrosion: basics, economic adverse effects, and its mitigation 67
- Chapter 4 Carbon allotropes for anticorrosive applications, challenges, and opportunities 89
- Chapter 5 Carbon allotropes: mechanism of corrosion prevention and control 117
- Chapter 6 Graphene and graphene oxide as nanostructured corrosion inhibitors 133
- Chapter 7 Chemically modified graphene and graphene oxides as corrosion inhibitors 149
- Chapter 8 Polymer composites of graphene and graphene oxides as corrosion inhibitors 175
- Chapter 9 Carbon nanotubes (CNTs) and their composites as nanostructured corrosion inhibitors 201
- Chapter 10 Chemically modified CNTs as corrosion inhibitors 227
- Chapter 11 Carbon quantum dots (CQDS), carbon nanorods (CNRS), and their composites as nanostructured corrosion inhibitors 241
- Chapter 12 Recent advances in carbon allotropes nanostructured as anticorrosive coatings 271
- Chapter 13 Industrial corrosion inhibitors: nanostructured carbon allotropes as ideal substitutes 327
- Chapter 14 Carbon allotropes-based materials as ideal substitutes for industrially useful selfhealing coatings: recent advancements and future proponents 355
- Chapter 15 Economics and commercialization of carbon allotropes nanostructured corrosion inhibitors 383
- Authorlist 405
- Index 409
Chapters in this book
- Frontmatter I
- About the editors V
- Preface VII
- Contents IX
- Chapter 1 Carbon allotropes: properties and applications – state of the art 1
- Chapter 2 Carbon allotropes: synthesis and characterization 33
- Chapter 3 Corrosion: basics, economic adverse effects, and its mitigation 67
- Chapter 4 Carbon allotropes for anticorrosive applications, challenges, and opportunities 89
- Chapter 5 Carbon allotropes: mechanism of corrosion prevention and control 117
- Chapter 6 Graphene and graphene oxide as nanostructured corrosion inhibitors 133
- Chapter 7 Chemically modified graphene and graphene oxides as corrosion inhibitors 149
- Chapter 8 Polymer composites of graphene and graphene oxides as corrosion inhibitors 175
- Chapter 9 Carbon nanotubes (CNTs) and their composites as nanostructured corrosion inhibitors 201
- Chapter 10 Chemically modified CNTs as corrosion inhibitors 227
- Chapter 11 Carbon quantum dots (CQDS), carbon nanorods (CNRS), and their composites as nanostructured corrosion inhibitors 241
- Chapter 12 Recent advances in carbon allotropes nanostructured as anticorrosive coatings 271
- Chapter 13 Industrial corrosion inhibitors: nanostructured carbon allotropes as ideal substitutes 327
- Chapter 14 Carbon allotropes-based materials as ideal substitutes for industrially useful selfhealing coatings: recent advancements and future proponents 355
- Chapter 15 Economics and commercialization of carbon allotropes nanostructured corrosion inhibitors 383
- Authorlist 405
- Index 409
