Описание: This thesis details the significant progress made in improving the performance of organic transistors and the network conductivity of carbon nanotubes. This advancing field represents an important step towards the realization of large area organic circuity.
Описание: Hydrodynamic moment equations (Chapter 2), Monte Carlo techniques (Chapter 3) and the cellular au- tomaton approach (Chapter 4) are introduced and illustrated with applications to nanometre structures and device simulation.
Автор: Dubrovskii V. Название: Nucleation theory and growth of nanostructures ISBN: 3642396593 ISBN-13(EAN): 9783642396595 Издательство: Springer Рейтинг: Цена: 19591.00 р. Наличие на складе: Есть у поставщика Поставка под заказ.
Описание: This book shows how the advanced nucleation theory can be used in the modeling of growth properties, morphology and the crystal phase of such nanostructures.
Описание: This book describes real-time observation and atomic level monitoring and machining using an in situ transmission electron microscopy (TEM) approach to investigate growth of carbon nanotubes and fabrication and properties of CNT-clamped metal atomic chains.
Описание: This book describes real-time observation and atomic level monitoring and machining using an in situ transmission electron microscopy (TEM) approach to investigate growth of carbon nanotubes and fabrication and properties of CNT-clamped metal atomic chains.
Описание: The theoretical understanding of transport properties of semiconductor structures on short length and short time scales, and in the nonlinear high-field regime is of particular relevance for electronic and optoelectronic materials. This work presents an overview of theoretical methods, results, and applications in the field.
Over the last 25 years, dynamical mean-field theory (DMFT) has emerged as one of the most powerful new developments in many-body physics. Written by one of the key researchers in the field, this book presents the first comprehensive treatment of this ever-developing topic.
Transport in Mutlilayered Nanostructures is varied and modern in its scope, and:
Develops the formalism of many-body Green's functions using the equation-of-motion approach
Applies DMFT to study transport in multilayered nanostructures, which is likely to be one of the most prominent applications of nanotechnology in the coming years
Develops formalism first for the bulk and then for the inhomogeneous multilayered systems
Describes in great detail the science behind the metal-insulator transition, electronic charge reconstruction, strongly correlated contributions to capacitance, and superconductivity
Includes complete derivations and emphasizes how to carry out numerical calculations, including discussions of parallel programming algorithms
Provides descriptions of the crossover from tunneling to thermally activated transport, of the properties of Josephson junctions with barriers tuned near the metal-insulator transition, of thermoelectric coolers and power generators and of nonequilibrium extensions to determine current-voltage characteristics as applications of the theory
A series of over 50 problems help develop the skills to allow readers to reach the level of being able to contribute to research. This book is suitable for an advanced graduate course in DMFT, and for individualized study by graduate students, postdoctoral fellows and advanced researchers wishing to enter the field.
Theory and Modeling of Cylindrical Nanostructures for High-Resolution Coverage Spectroscopy presents a new method for the evaluation of the coverage distribution of randomly deposited nanoparticles, such as single-walled carbon nanotubes and Ag nanowires over the substrate (oxides, SiO2, Si3N4, glass etc.), through height measurements performed by scanning probe microscopy techniques, like Atomic Force Microscopy (AFM).
The deposition of nanoparticles and how they aggregate in multiple layers over the substrate is one of the most important aspects of solution processed materials determining device performances. The coverage spectroscopy method presented in the book is strongly application oriented and has several implementations supporting advanced surface analysis through many scanning probe microscopy techniques. Therefore this book will be of great value to both materials scientists and physicists who conduct research in this area.
Описание: Adopting a unique approach, this book provides a thorough, one-stop introduction to nanoscience and self-assembly of nanomaterials composed of such materials as metals, metal oxides, metal sulphides, polymers, and biopolymers. Clearly divided into three sections covering the main aspects of nanoscience, the first part deals with the basic principles of nanoscale science. Alongside essential approaches and forces, this section also covers thermodynamics, phase transitions, and applications to biological systems. The second and third parts then go on to provide a detailed description of the synthesis of inorganic and organic nanoparticles, respectively. With its interdisciplinary content of importance to many different branches of nanoscience, this is essential reading for material scientists, physicists, biophysical chemists, chemical engineers, and biotechnologists alike.
Introduction.- Growth mechanism of silicon nanowires.- Stability of silicon nanostructures.- Novel electronic properties of silicon nanostructures.- Summary and remarks.
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