Metallic nanoparticles hold promise for their potential applications in a wide array of disciplines ranging from materials science to medicine. This book brings the power of theoretical methods to an audience of experimentalists, and explicates the simulation of metallic clusters and nanoparticles. It begins with a summary of the current state of research on metallic nanoparticles, then moves on to the current state of the art in theory of metallic nanoparticldes, and then explains why and how these tools help experimentalists. Contributions are provided by renowned experts in the field from across the world.
Tabella dei contenuti
Experimental and simulated electron microscopy in the study of metal nanostructures.- Density-functional theory of free and supported mtal nanoclusters and nanoalloys.- Closed-shell metal clusters.- Optical properties of metal nanoclusters from an atomistic point of view.- Spin-fluctuation theory of cluster magnetism.- Thermodynamics and kinetics using semi-empirical approaches.- Structure and chemical ordering in nanoalloys: Towards nanoalloys phase diagrams.- Modeling of Janus nanoparticles.- Modeling of protected nanoparticles.- Thermodynamic modeling of metallic nanoclusters.
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