8 Functionalized carbon allotropes-based thin film coatings as corrosion inhibitors
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Deepak Sharma
Abstract
Corrosion is a major issue faced by various industries, resulting in economic losses and safety hazards. Therefore, there is an urgent need for the development of efficient and sustainable corrosion inhibitors. Carbon allotropes, such as graphene, carbon nanotubes, and carbon dots, have unique structural, electronic, and mechanical properties that make them excellent candidates for corrosion inhibition applications. The chapter begins by providing an overview of the mechanisms of corrosion and the challenges in developing effective corrosion inhibitors. It then discusses the properties and functionalization methods of various carbon allotropes, and their potential for corrosion inhibition. The discussion also covers the various techniques used for the deposition of thin film coatings, such as chemical vapor deposition, electrochemical deposition, and spray coating. Furthermore, the chapter presents recent research studies that have investigated the use of functionalized carbon allotropes as thin film coatings for corrosion inhibition. Finally, the chapter concludes by summarizing the potential of functionalized carbon allotropes-based thin film coatings as sustainable and efficient corrosion inhibitors.
Abstract
Corrosion is a major issue faced by various industries, resulting in economic losses and safety hazards. Therefore, there is an urgent need for the development of efficient and sustainable corrosion inhibitors. Carbon allotropes, such as graphene, carbon nanotubes, and carbon dots, have unique structural, electronic, and mechanical properties that make them excellent candidates for corrosion inhibition applications. The chapter begins by providing an overview of the mechanisms of corrosion and the challenges in developing effective corrosion inhibitors. It then discusses the properties and functionalization methods of various carbon allotropes, and their potential for corrosion inhibition. The discussion also covers the various techniques used for the deposition of thin film coatings, such as chemical vapor deposition, electrochemical deposition, and spray coating. Furthermore, the chapter presents recent research studies that have investigated the use of functionalized carbon allotropes as thin film coatings for corrosion inhibition. Finally, the chapter concludes by summarizing the potential of functionalized carbon allotropes-based thin film coatings as sustainable and efficient corrosion inhibitors.
Kapitel in diesem Buch
- Frontmatter I
- Preface V
- Contents VII
- List of contributing authors IX
- 1 An overview of corrosion and functionalized thin film coating 1
- 2 Functionalized thin film coatings: fabrication strategies, synthesis, and characterization 21
- 3 Functionalized thin film coatings: basics, properties, and applications 39
- 4 Functionalized superhydrophobic surface and thin film coatings for corrosion protection 53
- 5 Porous materials-based functionalized thin film coatings as corrosion inhibitors 85
- 6 Functionalized conductive polymer-based thin film coating as corrosion inhibitors 115
- 7 Functionalized nanomaterials/nanocomposites-based thin film coatings as corrosion inhibitors 159
- 8 Functionalized carbon allotropes-based thin film coatings as corrosion inhibitors 173
- 9 Metal-organic frameworks (MOFs)-based functionalized thin film coating for corrosion protection 199
- 10 Functionalized quantum dots/carbonaceous quantum dots-based thin film coating as corrosion inhibitor 227
- 11 Functionalized hybrid sol–gel thin film coatings for corrosion inhibition 263
- 12 Incorporating microcapsules-embedded corrosion inhibitor in functionalized thin film coatings 293
- 13 Surface functionalized bio ceramic coatings for anti-corrosion performance 331
- 14 Functionalized thin film coatings for reinforced concrete engineering 347
- 15 Modeling of SH waves in a functionally graded piezo-poroelastic structure with sensitive coating in presence of point source of disturbance 369
- 16 Functionalized thin film coatings for automotive coatings 385
- 17 Influence of inorganic/organic additives on mechanical and electrochemical properties of functionalized thin film coatings 403
- 18 Role of surface functionalization on corrosion resistance and thermal stability of functionalized thin film coatings 427
- 19 Challenges and future outlooks 441
- Index 469
Kapitel in diesem Buch
- Frontmatter I
- Preface V
- Contents VII
- List of contributing authors IX
- 1 An overview of corrosion and functionalized thin film coating 1
- 2 Functionalized thin film coatings: fabrication strategies, synthesis, and characterization 21
- 3 Functionalized thin film coatings: basics, properties, and applications 39
- 4 Functionalized superhydrophobic surface and thin film coatings for corrosion protection 53
- 5 Porous materials-based functionalized thin film coatings as corrosion inhibitors 85
- 6 Functionalized conductive polymer-based thin film coating as corrosion inhibitors 115
- 7 Functionalized nanomaterials/nanocomposites-based thin film coatings as corrosion inhibitors 159
- 8 Functionalized carbon allotropes-based thin film coatings as corrosion inhibitors 173
- 9 Metal-organic frameworks (MOFs)-based functionalized thin film coating for corrosion protection 199
- 10 Functionalized quantum dots/carbonaceous quantum dots-based thin film coating as corrosion inhibitor 227
- 11 Functionalized hybrid sol–gel thin film coatings for corrosion inhibition 263
- 12 Incorporating microcapsules-embedded corrosion inhibitor in functionalized thin film coatings 293
- 13 Surface functionalized bio ceramic coatings for anti-corrosion performance 331
- 14 Functionalized thin film coatings for reinforced concrete engineering 347
- 15 Modeling of SH waves in a functionally graded piezo-poroelastic structure with sensitive coating in presence of point source of disturbance 369
- 16 Functionalized thin film coatings for automotive coatings 385
- 17 Influence of inorganic/organic additives on mechanical and electrochemical properties of functionalized thin film coatings 403
- 18 Role of surface functionalization on corrosion resistance and thermal stability of functionalized thin film coatings 427
- 19 Challenges and future outlooks 441
- Index 469
