Overview

Principles of Chemical Vapor Deposition provides a simple introduction to heat and mass transfer, surface and gas phase chemistry, and plasma discharge characteristics. In addition, the book includes discussions of practical films and reactors to help in the development of better processes and equipment. This book will assist workers new to chemical vapor deposition (CVD) to understand CVD reactors and processes and to comprehend and exploit the literature in the field. The book reviews several disparate fields with which many researchers may have only a passing acquaintance, such as heat and mass transfer, discharge physics, and surface chemistry, focusing on key issues relevant to CVD. The book also examines examples of realistic industrial reactors and processes with simplified analysis to demonstrate how to apply the principles to practical situations. The book does not attempt to exhaustively survey the literature or to intimidate the reader with irrelevant mathematical apparatus. This book is as simple as possible while still retaining the essential physics and chemistry. The book is generously illustrated to assist the reader in forming the mental images which are the basis of understanding.

Full Product Details

Author:   D.M. Dobkin ,  M.K. Zuraw
Publisher:   Springer
Imprint:   Springer
Edition:   Softcover reprint of hardcover 1st ed. 2003
Dimensions:   Width: 16.00cm , Height: 1.50cm , Length: 24.00cm
Weight:   0.454kg
ISBN:  

9789048162772

ISBN 10:   9048162777
Pages:   273
Publication Date:   01 December 2010
Audience:   Professional and scholarly ,  Professional & Vocational
Format:   Paperback
Publisher's Status:   Active
Availability:   Out of stock  
The supplier is temporarily out of stock of this item. It will be ordered for you on backorder and shipped when it becomes available.

Table of Contents

Acknowledgements. Preface. 1: Introduction. 1. What's behind the facade? 2. Generic reactors and process considerations. 3. Tube and showerhead reactor examples. 2: Reactors without transport. 1. What goes in must go somewhere: Measuring gases. 2. Review: Kinetic theory. 3. The zero-dimensional reactor. 4. Zero-dimensional tube and showerhead examples. 3: Mass transport. 1. Introduction to transport. 2. Convection and diffusion. 3. Diffusion: Physics and math. 4. Fluid flow and convective transport. 5. When flows matter: The Knudsen number. 6. Tube and showerhead examples. 7. On to photons. 4: Heat transport. 1. What is heat (energy) transport? 2. Heat conduction and diffusion. 3. Convective heat transfer made (very) simple. 4. Natural convection. 5. Radiative heat transfer. 6. Temperature measurement. 7. Tube and showerhead examples. 5: Chemistry for CVD. 1. What does the C stand for anyway? 2. Volatility, the V in CVD. 3. Equilibrium: Where things are going. 4. Kinetics: The slowest step wins. 5. Real precursors for real films. 6. Tube reactor example. 7. A few final remarks. 6: Gas discharge plasmas for CVD. 1. Plasma discharges: An instant review. 2. The low-pressure cold-plasma state. 3. Key parameters for capacitive plasma state. 4. Alternative excitation methods. 5. Plasmas for deposition. 6. Plasma damage. 7. Technical details. 8. Ongoing example: Parallel plate reactor. 9. A remark on computational tools. 7: CVD films. 1. Why CVD? 2. Silicon dioxide. 3. Silicon nitride. 4. Tantalum pentoxide. 5. Metal deposition by CVD. 6. Concluding remarks. 8: CVD reactors. 1. CVD reactor configurations. 2. Tube reactors. 3. Showerhead reactors. 4. High density plasma reactors. 5. Injector-based atmospheric pressure reactors. 6. Reactor conclusions. Index.

Reviews

Author Information

Tab Content 6

Author Website:  

Customer Reviews

Recent Reviews

No review item found!

Add your own review!

Countries Available

All regions