Traditional UVR absorbers pose environmental and health risks due to their volatility, solubility, and toxicity. High concentrations are needed for effective UV filtration, leading to environmental accumulation. Safer alternatives, like cyclodextrin complexation, can enhance UV filtration while reducing absorber concentration.
Traditional UVR absorbers pose environmental and health risks due to their volatility, solubility, and toxicity. High concentrations are needed for effective UV filtration, leading to environmental accumulation. Safer alternatives, like cyclodextrin complexation, can enhance UV filtration while reducing absorber concentration. Cyclodextrin complexation offers a promising solution by enhancing UV filtration efficiency while reducing the required concentration of UVR absorbers.
Cyclodextrins for UV Rays Filtration addresses a critical gap in photoprotection research by offering a comprehensive exploration of how cyclodextrins enhance UVR filtration. It provides an in-depth understanding of various UVR filters, including organic, inorganic, nanoparticle-based, natural, and herbal filters, while focusing on optimizing their efficiency through cyclodextrin complexation. This book serves as a single-point reference for researchers and professionals, guiding them in selecting suitable cyclodextrins based on UV absorber size, improving SPF/UPF performance, and reducing environmental impact. By presenting both fundamental principles and advanced applications, this book distinguishes itself as the first dedicated monograph on cyclodextrin-based UVR filters, making it an essential resource for academia and industry.
Features:
- Systematic overview of cyclodextrin-based UVR filtration principles, mechanisms, and methods.
- Insights from experts on advancements and future prospects of cyclodextrin-based UVR filters.
- Applications of cyclodextrins in sunscreens, lotions, textiles, protective films, and glass.
- Guidance on selecting and utilizing cyclodextrins for enhanced UVR protection.
- Coverage of both fundamental concepts and real-world uses of cyclodextrins in UVR filtration.
This book serves as a comprehensive and authoritative reference that will significantly benefit researchers, formulators, and professionals aiming to develop safer and more efficient photoprotective materials.
1 .Cyclodextrins for Enhanced Ultraviolet Rays Filtration: Principles
and Applications 2 Cyclodextrins as Encapsulants for UV-Ray Absorber
Complexes in Sunscreen Cosmetics 3 Cyclodextrins for enhancing the
photostability of UVR absorbers 4 Cyclodextrins Unveiled: Revolutionizing UV
Protection Across Diverse Sectors 5 Cyclodextrin Modified Antioxidants as
UV-Ray Absorber 6 Innovative Utilization of Cyclodextrins for Advanced UVR
Filtration 7 Unlocking the Potential of Cyclodextrins: Advantages,
Applications, and Cyclodextrin-UVR Absorber Complexes in Pharmaceutical
Formulations 8 Applications of UVR Absorber: Cyclodextrin Complexes 9
Cyclodextrins in UV Protection: Advanced Absorbers for Versatile Materials 10
Cyclodextrins-UVR absorbing molecular complexes for photodynamic therapy 11
Cyclodextrins: Revolutionizing Sunscreen Performance and Protection 12
Cyclodextrin-Enhanced UVR Absorbers: Versatile Solutions for Fabrics,
Polymers, and Beyond 13 Impact of cyclodextrins on the ultraviolet/sun
protection factors (UVPF/SPF) of UVR absorbers 14 Enhancing UVR Absorber
Efficacy with Cyclodextrins in Cosmetic and Non-Cosmetic Materials
Prof. Dr. Sivakumar Krishnamoorthy serves as Professor in the Department of Chemistry, Faculty of Science, and as the Director of the Research and Development Cell at Sri Chandrasekharendra Saraswathi Viswa Mahavidyalaya (SCSVMV), a Deemed-to-be University (www.kanchiuniv.ac.in) in Kanchipuram, Tamil Nadu, India. Inspired by the versatility of cyclodextrins, his research focuses on developing innovative application materials through cyclodextrin inclusion complexes. He holds one granted Indian patent on cyclodextrin application and has filed five patent applications. He is a recipient of a research fellowship from the prestigious Indian Academy of Sciences and has authored over 115 research papers. He has secured funding from various Government of India agencies, including DST, CSIR, UGC, DAE, the Indian Academy of Sciences, and the Tamil Nadu State Council for Science and Technology, for his research projects and programs.
