Nano- and micromaterials

The future focus of nanotechnology will be on realizing new functions over greater scales. This book describes the creation of nano- and microscale structures and functions by controlling temperature, light, pressure, or carrier injections. It includes novel nano-integration technologies such as self-organization of surface nanostructures, quantum well structures, microlithography and micromachines, as well as new techniques of laser spectroscopy and new computational methods.

General Introduction.- Nanometer-Scale Structure Formation on Solid Surfaces.- Ultrafast Laser Spectroscopy Applicable to Nano- and Micromaterials.- Defects in Anatase Titanium Dioxide.- Organic Radical 1,3,5-Trithia-2,4,6-Triazapentalenyl (TTTA) as Strongly Correlated Electronic Systems: Experiment and Theory.- Ab Initio GW Calculations Using an All-Electron Approach.- First-Principles Calculations Involving Two-Particle Excited States of Atoms and Molecules Using T-Matrix Theory.- Green's Function Formulation of Electronic Transport at Nanoscale.- Self-Assembled Quantum Dot Structure Composed of III-V Compound Semiconductors.- Potential-Tailored Quantum Wells for High-Performance Optical Modulators/Switches.- Thermodynamic Properties of Materials Using Lattice-Gas Models with Renormalized Potentials.- Optically Driven Micromachines for Biochip Application.- Study of Complex Plasmas.