Antiviral and Antimicrobial Smart Coatings: Fundamentals and Applications
Editat de Aditya Kumar, Ajit Behera, Muhammad Bilal, Ram Gupta, Tuan Anh Nguyenen Limba Engleză Paperback – 26 ian 2023
- Introduces the concepts of smart coatings and the synthesis, characterization, and classification
- Provides insights into the pros and cons of established processes and thereby provides guidance on how to select the appropriate techniques for specific applications
- Discusses the process of applying smart antimicrobial and antiviral coatings on various surfaces
- Presents the methods for characterization of smart and multifunctional coatings
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Specificații
ISBN-13: 9780323992916
ISBN-10: 0323992919
Pagini: 638
Dimensiuni: 152 x 229 x 39 mm
Greutate: 0.84 kg
Editura: ELSEVIER SCIENCE
ISBN-10: 0323992919
Pagini: 638
Dimensiuni: 152 x 229 x 39 mm
Greutate: 0.84 kg
Editura: ELSEVIER SCIENCE
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Public țintă
Material scientists, chemical engineers, mechanical engineers, textile engineers and academicians working in the field of medicine, food processing, polymer fabrication. pharmaceuticals and environmental science.Students, scientists, college and university professors, research professionals, technology investors and developers, research enterprises, R&D and defense research laboratories
Cuprins
Section A: Overview on microbes and viruses
1. Introduction to the microbial world and associated diseases
2. Fungal and Viral pathogens, classification, and associated diseases
3. Various materials surfaces and growth of microbes and viruses on it
4. Identification and culture tests
5. Microbe- and virus-philic surfaces
6. Microbe- and virus-phobic surface coating
7. Industrial environment and microbes/virus growth
Section B: Smart Coatings
8. Introduction to smart coatings
9. Working principles of various smart coating on microbes/virus growth
10. Effect of shape responsive coating on microbes/virus growth
11. Electric responsive coating and microbes/virus growth
12. Magnetic responsive coating and microbes/virus growth
13. Synthesis techniques of smart coatings
14. Smart coatings and biomimetics
15. Biomaterials and biomimetics
Section C: Antibacterial, antifungal and Antiviral smart coatings
16. Polymeric antibacterial, antifungal and antiviral coatings
17. Nanotechnology in antibacterial, antifungal and antiviral coatings
18. Nanomaterials based smart coatings for antibacterial, antifungal and antiviral activities
19. Green antibacterial, antifungal and antiviral coatings
20. Effect of smart coating and durability
21. Hybrid antibacterial, antifungal and antiviral smart coatings
Section D: Methods/standards for characterization of smart coatings
22. Characterization methodologies for smart coating
23. Screening methods to determine antibacterial activity
24. Molecular Network Approach
25. Gas chromatography coupled to mass spectrometry
26. Physical and mechanical property measurement of antiviral/ antibacterial smart coating
27. Erosion property evaluation of antiviral/ antibacterial smart coating
28. Chromic property measurement of antiviral/ antibacterial smart coating
29. Current standards and their limitations/concerns for testing the antibacterial activity of smart coatings
Section E: Current and predictable scenario
30. Prediction and optimization of materials surface with respect to bacteria, fungus and virus growth
31. Role of Smart coating to eliminate COVID infection
32. Edible and food safe antiviral and antimicrobial smart coatings
33. Industrialization of antiviral and antimicrobial smart coatings
34. Antibacterial activity of plant extracts smart coating
35. Human safety and environmental concerns of antiviral and antimicrobial smart coatings
36. Laws and developments to implement antimicrobial coatings
1. Introduction to the microbial world and associated diseases
2. Fungal and Viral pathogens, classification, and associated diseases
3. Various materials surfaces and growth of microbes and viruses on it
4. Identification and culture tests
5. Microbe- and virus-philic surfaces
6. Microbe- and virus-phobic surface coating
7. Industrial environment and microbes/virus growth
Section B: Smart Coatings
8. Introduction to smart coatings
9. Working principles of various smart coating on microbes/virus growth
10. Effect of shape responsive coating on microbes/virus growth
11. Electric responsive coating and microbes/virus growth
12. Magnetic responsive coating and microbes/virus growth
13. Synthesis techniques of smart coatings
14. Smart coatings and biomimetics
15. Biomaterials and biomimetics
Section C: Antibacterial, antifungal and Antiviral smart coatings
16. Polymeric antibacterial, antifungal and antiviral coatings
17. Nanotechnology in antibacterial, antifungal and antiviral coatings
18. Nanomaterials based smart coatings for antibacterial, antifungal and antiviral activities
19. Green antibacterial, antifungal and antiviral coatings
20. Effect of smart coating and durability
21. Hybrid antibacterial, antifungal and antiviral smart coatings
Section D: Methods/standards for characterization of smart coatings
22. Characterization methodologies for smart coating
23. Screening methods to determine antibacterial activity
24. Molecular Network Approach
25. Gas chromatography coupled to mass spectrometry
26. Physical and mechanical property measurement of antiviral/ antibacterial smart coating
27. Erosion property evaluation of antiviral/ antibacterial smart coating
28. Chromic property measurement of antiviral/ antibacterial smart coating
29. Current standards and their limitations/concerns for testing the antibacterial activity of smart coatings
Section E: Current and predictable scenario
30. Prediction and optimization of materials surface with respect to bacteria, fungus and virus growth
31. Role of Smart coating to eliminate COVID infection
32. Edible and food safe antiviral and antimicrobial smart coatings
33. Industrialization of antiviral and antimicrobial smart coatings
34. Antibacterial activity of plant extracts smart coating
35. Human safety and environmental concerns of antiviral and antimicrobial smart coatings
36. Laws and developments to implement antimicrobial coatings