Optical and Molecular Physics: Theoretical Principles and Experimental Methods addresses many important applications and advances in the field. This book is divided into 5 sections:
- Plasmonics and carbon dots physics with applications
- Optical films, fibers, and materials
- Optical properties of advanced materials
- Molecular physics and diffusion
- Macromolecular physics
Weaving together science and engineering, this new volume addresses important applications and advances in optical and molecular physics. It covers plasmonics and carbon dots physics with applications; optical films, fibers, and materials; optical properties of advanced materials; molecular physics and diffusion; and macromolecular physics.
This book looks at optical materials in the development of composite materials for the functionalization of glass, ceramic, and polymeric substrates to interact with electromagnetic radiation and presents state-of-the-art research in preparation methods, optical characterization, and usage of optical materials and devices in various photonic fields. The authors discuss devices and technologies used by the electronics, magnetics, and photonics industries and offer perspectives on the manufacturing technologies used in device fabrication.
Author(s): Miguel A. Esteso, Ana Cristina Faria Ribeiro, Soney C. George, Ann Rose Abraham, A. K. Haghi
Publisher: Apple Academic Press
Year: 2021
Language: English
Pages: 518
City: Boca Raton
Cover
Half Title
Title Page
Copyright Page
About the Editors
Table of Contents
Contributors
Abbreviations
Preface
Part I: Plasmonics and Carbon Dots Physics with Applications
1. Plasmonic Sensing by Green Synthesized Silver Nanoparticles
2. Surface Plasmon Response and Applications of Silver Nanoparticles Synthesized via Sol–Gel Route
3. Localized Surface Plasmon Resonance (LSPR) Applications of Gold (Au) and Silver (Ag) Nanoparticles
4. Green Carbon Dots as Optical Sensors for Metal Ions
5. Fluorescent Carbon Quantum Dots: Properties and Applications
Part II: Optical Films, Fibers, and Materials
6. Latest Deposition Techniques for Optical Thin Films and Coatings
7. Applications of Polymer Optical Fibers
8. Rare-Earth Oxalates: A Promising Optical Material without Luminescence Quenching
Part III: Optical Properties of Advanced Materials
9. The Optical Properties and Versatile Biomedical Applications of Semiconductor Nanoparticles: Imaging, Sensing, and Photothermal Therapy
10. Optical Properties of Pr3+-Doped Polyvinylidene Fluoride–Titanium Dioxide (PVDF–TiO2) Hybrid
11. Synthesis and Optical Properties of Green Carbon Dots
12. Nonlinear Optical Properties of Inorganic Polymers
13. Nonlinear Optical Properties of Metal Nanoparticles and Their Composites Synthesized by Different Methods
14. Phosphors: A Promising Optical Material for Multifunctional Applications
Part IV: Molecular Physics and Diffusion
15. Theoretical Values of Diffusion Coefficients of Electrolytes in Aqueous Solutions: Important Parameters with Application in Fundamental and Technological Areas
16. Thermodiffusion on the Fontainebleau Benchmark Mixture: An Overview
17. Hydrodynamic Radii for Sodium Salts in Aqueous Solutions: Contribution from Electrical Conductance and Diffusion
Part V: Macromolecular Physics
18. Pesticides and Their Environment and Health Impact: An Approach to Remediation Using Hydrogels
19. A New Equation for the Computation of the Lattice Energies of Inorganic Ionic Crystals Based on Parr’s Electrophilicity Index
Index
