Laser-driven techniques for metallic nanoparticle synthesis are advancing rapidly, offering unique capabilities for energy and electronic applications. Unlike conventional chemical routes, ultrafast laser methods exploit transient, non-equilibrium conditions to produce novel nanostructures. This book provides an overview of both theoretical and experimental aspects of laser-based fabrication, including top-down approaches such as laser-induced liquid-state dewetting for mono- and bimetallic nanoparticles.

It also examines emerging multimetallic and high-entropy alloy systems, alongside laser ablation in liquids, a versatile strategy for generating diverse nanoparticle libraries. Detailed discussions of structural, optical, electronic, and catalytic properties highlight their integration into next-generation energy conversion and electronic technologies.

Key Features:

• Discusses laser-based techniques to fabricate metallic nanoparticles
• Includes experimental and theoretical aspects of metallic nanoparticle creation via laser-based methods, their properties and applications
• Covers top-down formation of self-organized mono- and bimetallic nanoparticle formation via laser-induced liquid state dewetting of nanoscale thin films
• Discusses the formation of multimetallic and high-entropy alloy nanoparticles
• Includes various energy and electronic applications