Autor: Nicola Pinna
ISBN-13: 9783527327973
Veröffentl: 01.11.2011
Einband: Buch
Seiten: 435
Gewicht: 1032 g
Format: 254x182x28 mm
Sprache: Englisch

Atomic Layer Deposition of Nanostructured Materials

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Clearly structured, the introductory part of this first book on ALD provides a great insight into all aspects of the technique and processes, while the second part focuses on various aspects of nanomaterials and fields of application.
PART I: Introduction to ALD
THEORETICAL MODELING OF ALD PROCESSES
Introduction
Overview of Atomistic Simulations
Calculation of Properties Using Quantum Simulations
Prediction of ALD Chemical Mechanisms
Example of a Calculated ALD Mechanism: ALD of Al2O3 Using TMA and Water
STEP COVERAGE IN ALD
Introduction
Growth Techniques
Step Coverage Models in ALD
Experimental Verifications of Step Coverage Models
Summary
PRECURSORS FOR ALD PROCESSES
Introduction
General Requirements for ALD Precursors
Metallic Precursors for ALD
Nonmetal Precursors for ALD
Conclusions
SOL-GEL CHEMSTRY AND ATOMIC LAYER DEPOSITION
Aqueous and Nonaqueous Sol-Gel in Solution
Sol-Gel and ALD: An Overview
Mechanistic and In Situ Studies
MOLECULAR LAYER DEPOSITION OF HYBRID ORGANIC-INORGANIC FILMS
Introduction
General Issues for MLD of Hybrid Organic-Inorganic Films
MLD Using Trimethylaluminum and Ethylene Glycol in an AB Process
Expansion to an ABC Process Using Heterobifunctional and Ring-Opening Precursors
Use of a Homotrifunctional Precursor to Promote Cross-Linking in an AB Process
MLD of Hybrid Alumina-Siloxane Films Using an ABCD Process
Future Prospects for MLD of Hybrid Organic-Inorganic Films
LOW-TEMPERATURE ATOMIC LAYER DEPOSITION
Introduction
Challenges of LT-ALD
Materials and Processes
Toward Novel LT-ALD Processes
Thin Film Gas Diffusion Barriers
Encapsulation of Organic Electronics
Conclusions
PLASMA ATOMIC LAYER DEPOSITION
Introduction
Plasma Basics
Plasma ALD Configurations
Merits of Plasma ALD
Challenges for Plasma ALD
Concluding Remarks and Outlook
PART II: Nanostructures by ALD
ATOMIC LAYER DEPOSITION FOR MICROELECTRONIC APPLICATIONS
Introduction
ALD Layers for Memory Devices
ALD for Logic Devices
Concluding Remarks
NANOPATTERNING BY AREA-SELECTIVE ATOMIC LAYER DEPOSITION
Concept of Area-Selective Atomic Layer Deposition
Change of Surface Properties
Patterning
Applications of AS-ALD
Current Challenges
COATINGS ON HIGH ASPECT RATIO STRUCTURES
Introduction
Models and Analysis
Characterization Methods for ALD Coatings in High Aspect Ratio Structures
Examples of ALD in High Aspect Ratio Structures
Nonideal Behavior during ALD in High Aspect Ratios
Conclusions and Future Outlook
COATINGS OF NANOPARTICLES AND NANOWIRES
ALD on Nanoparticles
Vapor-Liquid-Solid Growth of Nanowires by ALD
Atomic Layer Epitaxy on Nanowires
ALD on Semiconductor NWs for Surface Passivation
ALD-Assisted Formation of Nanopeapods
Photocorrosion of Semiconductor Nanowires Capped by ALD Shell
Interface Reaction of Nanowires with ALD Shell
ALD ZnO on NWs/Tubes as Seed Layer for Growth of Hyperbranch
Conclusions
ATOMIC LAYER DEPOSITION ON SOFT MATERIALS
Introduction
ALD on Polymers for Passivation, Encapsulation, and Surface Modification
ALD for Bulk Modification of Natural and Synthetic Polymers and Molecules
ALD for Polymer Sacrificial Templating: Membranes, Fibers, and Biological and Optical Structures
ALD Nucleation of Patterned and Planar SAMs and Surface Oligomers
Reactions during Al2O3 ALD on Representative Polymer Materials
Summary
APPLICATION OF ALD TO BIOMATERIALS AND BIOCOMPATIBLE COATINGS
Application of ALD to Biomaterials
Biocompatible Coatings
Summary
COATING OF CARBON NANOTUBES
Introduction
Purification and Surface Functionalization of Carbon Nanotubes
Decoration/Coating of Carbon Nanotubes by Solution Routes
Decoration/Coating of Carbon Nanotubes by Gas-Phase Techniques
Atomic Layer Deposition on Carbon Nanotubes
Coating of Large Quantity of CNTs by ALD
ALD Coating of Other sp2-Bonded Carbon Materials
Conclusions
INVERSE OPAL PHOTONICS
Introduction and Background
Properties of Three-Dimensional Photonic Band Structures
Large-Pore and Non-Close-Packed Inverse Opals
Experimental Studies
Tunable PC Structures
Summary
NANOLAMINATES
Introduction
Optical Applications
Thin Film Encapsulation
Applications in Electronics
Copper Electroplating Applications
Solid Ox
Atomic layer deposition, formerly called atomic layer epitaxy, was developed in the 1970s to meet the needs of producing high-quality, large-area fl at displays with perfect structure and process controllability. Nowadays, creating nanomaterials and producing nanostructures with structural perfection is an important goal for many applications in nanotechnology. As ALD is one of the important techniques which offers good control over the surface structures created, it is more and more in the focus of scientists. The book is structured in such a way to fi t both the need of the expert reader (due to the systematic presentation of the results at the forefront of the technique and their applications) and the ones of students and newcomers to the fi eld (through the first part detailing the basic aspects of the technique).
This book is a must-have for all Materials Scientists, Surface Chemists, Physicists, and Scientists in the Semiconductor Industry.
Editiert von: Nicola Pinna, Mato Knez
Nicola Pinna studied physical chemistry at the Université Pierre et Marie Curie (Paris). He received his PhD in 2001, and in 2002, he moved to the Fritz Haber Institute of the Max Planck Society (Berlin). In 2003, he joined the Max Planck Institute of Colloids and Interfaces (Potsdam). In 2005, he moved to the Martin Luther University, Halle-Wittenberg, as an Assistant Professor of Inorganic Chemistry. Since 2006 he is researcher at the Department of Chemistry and CICECO of the University
of Aveiro and since 2009 he is also Assistant Professor at the School of Chemical and Biological Engineering of the Seoul National University. In 2011 he was ranked among the top 100 materials scientists of the past decade by impact. His research activity is focused on the development of novel routes to nanostructured materials, their characterization, and the study of their physical properties.

Mato Knez studied chemistry at the University of Ulm in Germany. He did his dissertation at the Max Planck Institute of solid state research in Stuttgart from 2000-2003. In 2003 he joined the Max Planck Institute for Microstructure Physics in Halle as a Postdoc where he established the ALD-based research direction. Since 2006 he is leading a research group funded by the German Ministry of Education and Research (BMBF). In January 2012 he will join CIC nanoGUNE in San Sebastian (Spain) as an Ikerbasque Research Professor. His research activities are mainly focused on various aspects of the application of ALD, including the synthesis of optical nanolaminates, infi ltration mechanisms when ALD is applied to soft materials, and ALD-assisted nanofabrication of photonic and plasmonic structures. Aside from ALD he has strong research activites in biotemplated inorganic nanostructures for applications in nanotechnology and medicine.

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Autor: Nicola Pinna
ISBN-13:: 9783527327973
ISBN: 3527327975
Erscheinungsjahr: 01.11.2011
Verlag: Wiley VCH Verlag GmbH
Gewicht: 1032g
Seiten: 435
Sprache: Englisch
Sonstiges: Buch, 254x182x28 mm, 132 schwarz-weiße und 43 farbige Abbildungen, 7 schwarz-weiße Tabellen