Upconversion Nanocrystals for Sustainable Technology provides an overview of the current research directions in upconverting nanocrystals and their role in the development of sustainable technologies. This book focuses on the development of low-cost, nontoxic, and energy-efficient upconverting nanocrystals for a wide range of applications. It reviews size control synthesis techniques of nanostructured materials in different dimensions, size-dependent properties, and the relationship between material properties and performance. This book discusses the use of upconversion materials for lasers, display, lighting, energy, and biomedical applications-with a focus on the use of these materials to develop more sustainable technologies. This book is suitable for new entrants in academia and R&D with a scientific background in materials science and engineering, chemistry, and chemical engineering.
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Table of Contents
1. Introductions to upconversion nanocrystals for sustainable technologies 2. Shape and size control synthesis techniques for the preparation of upconversion nanocrystals 3. Lanthanide-doped molybdate host materials for photonics devices 4. Development of upconverting vanadate phosphors for fluorescent imaging technology 5. Synthesis, upconversion properties and applications of Ln3+ -doped aluminates phospur 6. NIR-Visible luminescence and applications of Er3+, Ho3+, and Tm3+/Yb3+ co-doped glasses 7. Photocatalytic and sensing properties of rare-earth-doped tungsgate upconverting host materials 8. Rare earth-doped oxide upconversion nanocrystals for photovoltaic applications 9. Upconversion properties of lanthanide-doped core/shell nanostructures and their emerging application 10. Synthesis and upconversion properties of rare-earth co-doped composite phosphurs 11. Shape-size-controlled synthesis techniques and applications of fluoride upconverting nanocrystals
