London, : Elsevier Science, 2008

1-281-07050-5

9786611070502

0-08-055407-5

1 online resource (505 p.)

ErokhinVictor

RamManoj Kumar

YavuzOzlem

620.5

Nanotechnology

Nanostructured materials - Design and construction

Inglese

Description based upon print version of record.

Includes bibliographical references and index.

Front Cover; The New Frontiers of Organic and Composite Nanotechnology; Copyright Page; Table of Contents; Preface; List of contributors; Chapter 1 Layer-by-layer assembly; 1.1. Introduction; 1.2. Layer-by-layer Self-assembly; 1.2.1. Basic Principles; 1.2.2. Building Blocks for Layer-by-layer Self-assembly; 1.2.3. Kinetics of Multilayer Adsorption; 1.2.4. Tuning of Layer-by-layer Self-assembly; 1.3. Fabrication of Nanocomposite Thin Films; 1.3.1. Silica/Polyion Multilayer; 1.3.2. Semiconductor Nanoparticle/Polyion Multilayers; 1.3.3. Au Nanoparticle/Polycation Multilayer

1.3.4. Layered Ceramic Plates1.3.5. Conductive Polymers/Polyion Multilayer; 1.3.6. Carbon Nanotube/Polyion Multilayer; 1.3.7. Protein/Polyion Multilayer; 1.3.8. DNA Multilayer; 1.4. Modified Procedures; 1.4.1. Spin Layer-by-layer Self-assembly; 1.4.2. Spray Layer-by-layer Self-assembly; 1.4.3. Covalent Layer-by-layer Self-assembly; 1.5. Surface Patterning; 1.6. Current and Potential Applications; 1.6.1. Current Applications; 1.6.2. Potential Applications; 1.6.3. Difficulties and Solutions; 1.7. Conclusions; References

Chapter 2 Multifunctional microcontainers with tuned permeability for

delivery and (bio)chemical reactions2.1. Introduction; 2.2. Novel Polymer Materials for Low Permeable Capsule Walls and Encapsulation; 2.3. Release of Encapsulated Materials from Polyelectrolyte Capsules; 2.3.1. Enzyme-mediated Release of Encapsulated Materials; 2.3.2. Release by Laser; 2.4. Applications and Perspectives; References; Chapter 3 Advanced optical spectroscopies in nanotechnology; 3.1. Introduction: Spectroscopy on the Nanoscale; 3.2. The Nanoworld; 3.2.1. Small Objects; 3.2.2. Small Structures

3.3. Advanced Optical Spectroscopies3.3.1. Single-molecule Fluorescence Spectroscopies; 3.3.2. The SERS Effect and Enhanced Spectroscopies; 3.3.3. Tip-enhanced Spectroscopies; 3.4. Some Applications; 3.4.1. Blinking, Statistics and PCS; 3.4.2. Surface Plasmon Engineering and Sensors; 3.4.3. Quantum Dots and Nanoparticles; 3.4.4. Polarization and Anisotropy Effects; 3.4.5. Innovative Methods and Results; 3.4.6. 'Normal' Spectroscopy on Nanostructured Systems; 3.5. Conclusions and Perspectives; Bibliographical Appendix; Bibliography; Chapter 4 Conducting nanocomposite systems; 4.1. Introduction

4.2. Classification4.3. Host and Guest Materials for Conducting Nanocomposite Systems; 4.3.1. Host Materials; 4.3.2. Guest Materials; References; Chapter 5 Electrochemically assisted scanning probe microscopy: A powerful tool in nano(bio)science; 5.1. Introduction; 5.2. Electrochemical Scanning Tunnelling Microscope (EC-STM); 5.2.1. Bipotentiostatic Approach; 5.2.2. Tip Preparation; 5.2.3. Tip Characterization; 5.2.4. Substrate Electrode Preparation; 5.2.5. Tunnelling in Water; 5.3. EC-STM for Studying Underpotential Deposition

5.4. Visualization of Potential-Induced Molecular Assembling and Phase Transitions

This book is an attempt to illustrate current status of modern nanotechnology. The book is divided into 3 main sections, introduction and conclusion. The introduction describes general questions of the problem and main lines of the research activities. In the first section methods of the nanostructures construction are described. Second section is dedicated to the Structure-property relationship. Special attention is paid to the description of the most powerful experimental methods and tools used in nanotechnology, such as probe microscopies, spectroscopied, and scattering methods, including t