Advancements in Half-Heuslers: A Key to Clean Energy explores the groundbreaking potential of half-Heusler compounds in addressing clean energy challenges. Tracing the discovery of the first Heusler compound in 1903 to the modern era, this book highlights the remarkable properties of half-Heusler materials, including their tuneable energy gaps, mechanical stability, and multifunctional capabilities. With applications in photovoltaics, thermoelectrics, and spintronics, these compounds are pivotal in the development of sustainable technologies.
Using density functional theory advanced computational methods, it analyzes the structural, electronic, optical, and thermoelectric properties of selected half-Heusler compounds. Key insights into mechanical and thermal stability further solidify their suitability for high-performance devices. With its detailed analysis and focus on emerging applications, this book serves as a valuable resource for researchers, engineers, and anyone passionate about renewable energy and materials science.
- Energy Challenges and Sustainable Solutions
- Sustainable Future with Half-Heusler Alloys
- Computational Tools for Materials Analysis
- Hybrid Functional Study of LiZnX Half-Heuslers
- XScZ Half-Heuslers: Material Properties to Applications
- State-of-the-Art Rb-Based Half-Heuslers
- Advanced Study of AlNiX Half-Heuslers
- Highlights and Horizons
- References
P. K. Kamlesh, currently serving as an Associate Professor and Associate Dean at Nirwan University Jaipur, is a distinguished scholar in the field of Physics with a focus on renewable energy solutions.
P. K. Kamlesh, "Advancements in Half-Heuslers: A Key to Clean Energy," Scholarly Publication, (2024).