Nanostructured Semiconductors: Amorphization and Thermal Properties

✍ Scribed by Konstantinos Termentzidis

Publisher: Pan Stanford Publishing
Year: 2017
Tongue: English
Leaves: 597
Edition: 1
Category: Library

No coin nor oath required. For personal study only.

✦ Synopsis

The book is devoted to nanostructures and nanostructured materials containing both amorphous and crystalline phases with a particular focus on their thermal properties. It is the first time that theoreticians and experimentalists from different domains gathered to treat this subject. It contains two distinct parts; the first combines theory and simulations methods with specific examples, while the second part discusses methods to fabricate nanomaterials with crystalline and amorphous phases and experimental techniques to measure the thermal conductivity of such materials.

Physical insights are given in the first part of the book, related with the existing theoretical models and the state of art simulations methods (molecular dynamics, ab-initio simulations, kinetic theory of gases). In the second part, engineering advances in the nanofabrication of crystalline/amorphous heterostructures (heavy ion irradiation, electrochemical etching, aging/recrystallization, ball milling, PVD, laser crystallization and magnetron sputtering) and adequate experimental measurement methods are analyzed (Scanning Thermal Microscopy, Raman, thermal wave methods and x-rays neutrons spectroscopy).

✦ Table of Contents

Content: THEORY-SIMULATIONS. Structural properties crystalline vs. amorphous phase. Thermal conductivity of disordered systems. Nanostructures and heat transport. Applications. Monte Carlo resolution of the Boltzmann Transport Equation. Equilibrium molecular dynamics. Non-equilibrium molecular dynamics. Approach to equilibrium molecular dynamics. Atomistic simulations of vibrational modes of crystalline nanoinclusions in an amorphous matrix. Structural properties and defects in III-Nitrides at the nanoscale. FABRICATION AND MEASUREMENT TECHNIQUES. Amorphisation of porous silicon nanostructures by heavy ion irradiation. Crystalline/amorphous porous Ge nanostructures by electrochemical etching. Thermal transport in amorphous/nanocrystalline composites. Ball Milling induced nano-crystallization and amorphisation. Physical vapor deposition and tin-induced or laser crystallization. Nanoparticle formation via magnetron sputtering with inert gas aggregation. Scanning thermal microscopy. Thermal wave methods. X-rays and neutrons spectroscopy for the investigation of individual phonons properties in crystalline and amorphous solids.

✦ Subjects

Nanostructured materials;Nanostructures;Semiconductors -- Materials

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