Low-Dimensional Quantum Materials: From Fundamentals to Frontiers (Emerging Materials and Technologies)

Low-Dimensional Quantum Materials: From Fundamentals to Frontiers provides a comprehensive exploration of the theoretical foundations, material systems, and emerging applications of quantum materials with reduced dimensionality. From two-dimensional materials like graphene and transition metal dichalcogenides (TMDs) to Dirac materials, topological insulators, and artificial quantum structures, this book delves into the quantum effects covering the aspects of electronic, optical, and magnetic properties that arise in these materials.

- Covers fundamental principles, classification, and experimental techniques.

- Focuses on specific material systems and their quantum properties.

- Highlights frontier applications in quantum computing, optoelectronics, energy, and biomedical technologies.

- Addresses theoretical insights and practical challenges such as scalability, integration with existing semiconductor technology, and real-world applicability.

- Bridges the gap between fundamental research and technological innovation, providing a roadmap for future advancements in low-dimensional quantum materials.

By systematically presenting fundamental concepts, fabrication methods, characterization techniques, and cutting-edge research about low-dimensional quantum materials, this book serves as both an introductory guide and an advanced reference for researchers and professionals in condensed matter physics, nanotechnology, and materials science.