Vegetable Oil-Based Polymers and Their Surface Applications
- 1st Edition - May 17, 2024
- Imprint: Elsevier
- Editors: Eram Sharmin, Fahmina Zafar
- Language: English
- Paperback ISBN:9 7 8 - 0 - 1 2 - 8 2 2 1 8 9 - 1
- eBook ISBN:9 7 8 - 0 - 1 2 - 8 2 2 3 6 7 - 3
Vegetable Oil Based Polymers and Their Surface Applications presents detailed coverage of principles, preparation methods and novel surface uses of vegetable oil based polymers.… Read more
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Request a sales quoteVegetable Oil Based Polymers and Their Surface Applications presents detailed coverage of principles, preparation methods and novel surface uses of vegetable oil based polymers. This comprehensive, state-of-the-art book follows the journey of vegetable oils from seeds to surfaces in a range of advanced applications. Opening chapters discuss theory, principles and characterization techniques while other sections present concepts on the preparation of different polymer types based on vegetable oil. The final section of the book provides extensive coverage of applications, enabling the preparation of vegetable oil based polymers for a range of products and industries.
This is a valuable resource for researchers, scientists, and advanced students in polymer chemistry, surfaces and coatings, natural polymers, materials chemistry, chemical engineering and plastics engineering. In an industrial setting, this book supports R&D professionals, scientists, and engineers interested in developing innovative biobased materials for a range of applications, including automotive and aerospace, packaging, cosmetics, pharmaceuticals, biomedicine and consumer goods.
- Provides in-depth information on the preparation of vegetable oil-based epoxies, alkyds, polyesteramides, polyetheramides and polyurethanes
- Explores cutting-edge surface applications of vegetable oil-based polymers in areas such as coatings, packaging, cosmetics and wound dressings
- Includes other key considerations, including cost benefit analysis, lifecycle assessment and future developments
Academic: Researchers, scientists, and advanced students in polymer chemistry, surfaces and coatings, natural polymers, materials chemistry, chemical engineering and plastics engineering. Industry: R&D, scientists, and engineers interested in innovative biobased materials for a range of applications, including paints and coatings, packaging, cosmetics, pharmaceuticals, and more
- Cover image
- Title page
- Table of Contents
- Copyright
- Contributors
- Preface
- Acknowledgements
- Section A. Introduction to vegetable oils: chemical reactions and characterization techniques
- Chapter 1. Vegetable oils: an introductory chapter
- 1. Introduction
- 2. Classification
- 3. Applications
- 4. Conclusion
- Chapter 2. Vegetable oils: Biofactories of nature (chemical reactions)
- 1. Introduction
- 2. Alkyds
- 3. Epoxies
- 4. Polyesteramides
- 5. Polyetheramides
- 6. Polyurethanes
- 7. Conclusion
- Chapter 3. Characterization techniques
- 1. Introduction
- 2. Physical and chemical characterization
- 3. Spectral analyses
- 4. Thermal analyses
- 5. Morphology
- 6. Physico-mechanical analysis and corrosion resistance tests of coatings
- 7. Conclusion
- Section B. Preparation of vegetable oil-based polymers
- Chapter 4. Alkyds from vegetable oils for surface application
- 1. Vegetable oils
- 2. Resins for coating industry
- 3. Alkyd resins
- 4. Industrial alkyd production
- 5. Classification of alkyd resins
- 6. Modification of alkyds
- 7. Conclusion
- Chapter 5. Polyesteramides from vegetable seed oils
- 1. Introduction
- 2. Diol fatty amide (DFA) from VSO
- 3. PEAs from DFAs and dicarboxylic acids/anhydrides
- 4. PEAs from DFAs and polycarboxylic acids
- 5. Modified PEAs
- 6. Conclusion
- Acknowledgements
- Chapter 6. Vegetable oils–based polyurethanes
- 1. Introduction
- 2. Basic components for PUs
- 3. Chemical reactions of VOs-based PUs
- 4. Applications
- 5. Conclusion
- Section C. Applications of vegetable oil-based polymers
- Chapter 7. Alkyd resins: Versatile bio-based coating materials
- 1. Introduction
- 2. Alkyd resins
- 3. Modified alkyds
- 4. Water-soluble alkyd resins
- 5. Alkyd nanocomposites
- 6. Alkyd resins from nonconventional resources
- 7. Conclusion and prospectives
- Chapter 8. Vegetable oil–based polyesteramide coatings
- 1. Introduction
- 2. Poly(ester-amide)s
- 3. Modified PEA
- 4. Metal and metalloid-modified PEA
- 5. Organic moiety modified PEA
- 6. Waterborne PEA
- 7. Conclusion
- Chapter 9. Vegetable oils–based printing inks
- 1. Introduction
- 2. Composition of conventional inks
- 3. Composition of VOs
- 4. VOs-based inks over petro inks
- 5. UV curing inks
- 6. Advantages of VOs-based inks
- 7. Conclusion
- Chapter 10. Recent updates on the emerging role of vegetable oils in the development of hydrogel technology for biomedical applications
- 1. Use of vegetable oils for biomaterials
- 2. VOs-based hydrogels
- 3. VOs-based biomedical scaffolds
- 4. VOs-based hydrogels for wound healing applications
- 5. VOs-based hydrogels for theranostic applications
- 6. VOs-based hydrogels as anticancer agents
- 7. Conclusion
- Chapter 11. Vegetable oils-based cosmetics
- 1. Introduction and overview
- 2. Traditional uses of VOs in different cultures
- 3. Properties of VOs in skin care
- 4. Common VOs used in cosmetics
- 5. Advantages and business prospects of VOs
- 6. Conclusion
- Chapter 12. Vegetable oils–based lubricants
- 1. Introduction
- 2. VO used for lubricants, their advantages and applications
- 3. Conclusion
- Chapter 13. Vegetable oils in nanoparticles synthesis
- 1. Introduction and overview
- 2. VOs-mediated NPs synthesis methods
- 3. NPs synthesized using VOs and their applications
- 4. Benefits of VOs in nanoparticles synthesis
- 5. Factors affecting the synthesis of nanoparticles using VOs
- 6. Concluding remarks
- Chapter 14. Green synthesis of metal nanoparticles using essential oils and plant extracts
- 1. Introduction
- 2. Classification of green synthesis routes for NPs
- 3. Biological synthesis of NPs
- 4. Future perspectives
- Chapter 15. Vegetable oil–based polymer nanocomposites for surface applications
- 1. Introduction
- 2. Nanocomposites and bionanocomposites
- 3. VO-based bionanocomposites
- 4. Surface applications of VO based polymer nanocomposites
- 5. Conclusion
- Chapter 16. Essential oils and plant extracts-based corrosion inhibitors for metal surfaces
- 1. Introduction
- 2. Essential oils-based corrosion inhibitors for metal surfaces
- 3. Plant extracts (pretreatment and extraction)
- 4. Plant material for extraction
- 5. Plant extracts as corrosion inhibitors
- 6. Proposed corrosion protection mechanism adopted by plant extracts and essential oils
- 7. Conclusion
- Chapter 17. Antimicrobial importance of essential oils
- 1. Essential oils
- 2. EO/Antimicrobials interactions
- 3. Possible mechanisms of antibacterial activity of EOs
- 4. Possible mechanisms of action of EOs against fungi
- 5. Conclusion
- Chapter 18. Vegetable oils–based coatings
- 1. Introduction
- 2. Conclusion
- Chapter 19. Vegetable oils-based organic–inorganic hybrid coatings
- 1. Introduction
- 2. OIH coating materials
- 3. Conclusion
- Index
- Edition: 1
- Published: May 17, 2024
- No. of pages (Paperback): 342
- No. of pages (eBook): 500
- Imprint: Elsevier
- Language: English
- Paperback ISBN: 9780128221891
- eBook ISBN: 9780128223673
ES
Eram Sharmin
Dr Eram Sharmin is an Assistant Professor in the Department of Pharmaceutical Chemistry, College of Pharmacy, Umm Al-Qura University, Makkah, Saudi Arabia. She obtained her PhD degree in Chemistry from Jamia Millia Islamia (JMI) - A Central University, New Delhi, India, in the year 2007. During and after her PhD, her focus of research has been the development of environment friendly coatings from commercial and vegetable oil based epoxies, polyols, polyurethanes, polyesteramides and others. She has published research and review articles on environment friendly coatings. She has more than 50 publications in peer-reviewed journals and books, and has presented more than 30 research papers in national and international conferences. Her research interests include the development of “green” materials with applications as antimicrobial and protective coatings, films, hydrogels, and packaging materials.
Affiliations and expertise
Assistant Professor, Department of Pharmaceutical Chemistry, College of Pharmacy, Umm Al-Qura University, Makkah, Saudi ArabiaFZ
Fahmina Zafar
Dr Fahmina Zafar is a senior researcher working at the Inorganic Materials Research Laboratory, Department of Chemistry, JMI, New Delhi, under the Women Scientists Scheme (WOS) for Research in Basic/Applied Sciences from the Dept. of Science & Technology, New Delhi, India. Dr Zafar received her PhD degree in Chemistry from JMI in 2006, MSc degree in Organic Chemistry from JMI in 1999 and BSc degree in Chemistry and Textile Clothing from Mahila Vidyalaya Degree College, Lucknow University, UP, in 1995. She has worked as post-doctoral fellow under Dr D. S. Kothari postdoctoral fellowship of University Grants Commission (UGC), New Delhi, India, at Inorganic Materials Research Laboratory, Dept. of Chemistry, JMI, as Senior Research Associate/Scientist Pool, Research Associate and Senior Research Fellow (CSIR, New Delhi) at Materials Research Laboratory, Department of Chemistry, JMI. She has more than 50 publications in conference proceedings, peer-reviewed journals and books. Her research work involves the development of bio-based polymers, metallopolymers, organic-inorganic hybrids, co-ordination polymers and nanocomposites for green environment in different fields including adsorption, antimicrobial and corrosion protective applications.
Affiliations and expertise
Senior Researcher, Inorganic Materials Research Laboratory, Department of Chemistry, JMI, New Delhi, IndiaRead Vegetable Oil-Based Polymers and Their Surface Applications on ScienceDirect