Advances in Crystal Growth Research

Other | July 1, 2001

byFurukawa, Y., Y. Furukawa

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The aim of this book is to provide a timely collection that highlights advances in current research of crystal growth ranging from fundamental aspects to current applications involving a wide range of materials. This book is published on the basis of lecture texts of the 11th International Summer School on Crystal Growth (ISSCG-11) to be held at Doshisha Retreat Center in Shiga Prefecture Japan, on July 24-29, 2001. This school is always associated with the International Conference of Crystal Growth (ICCG) series that have been held every three years since 1973; thus this school continues the tradition of the past 10 schools of crystal growth.

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The aim of this book is to provide a timely collection that highlights advances in current research of crystal growth ranging from fundamental aspects to current applications involving a wide range of materials. This book is published on the basis of lecture texts of the 11th International Summer School on Crystal Growth (ISSCG-11) to ...

Kiyotaka Sato, Hiroshima University, Japan.

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Format:OtherDimensions:436 pages, 1 × 1 × 1 inPublished:July 1, 2001Publisher:Elsevier Science & TechLanguage:English

The following ISBNs are associated with this title:

ISBN - 10:0080526128

ISBN - 13:9780080526126

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Table of Contents

Preface. Acknowledgements.
1. Crystal growth - its significance for modern science and technology and its possible future applications (I. Sunagawa).
Part 1. Understanding of fundamental aspects in crystal growth
2. Fundamentals of phase field theory (R.F. Sekerka).
3. Generic mechanism of heterogeneous nucleation and molecular interfacial effects (X.Y. Liu).
4. Challenges in crystal growth science and the microgravity tool (A.A. Chernov).
5. Surface step dynamics: basic concepts, theory and simulation (M. Uwaha).
6. Surface step dynamics: experimental observations (J.J. Metois)
7. Elementary growth process in semiconductor epitaxy - Molecular beam epitaxy as an example of epitaxy - (T. Nishinaga).
8. Atomistic simulation of epitaxial growth processes (T.Ito).
Part 2. Materials design and functionality of advanced materials
9. Si bulk crystal growth: What and how? (K. Kakimoto).
10.Optimization of melt growth processes by experimental analysis and compyter modeling (G. Muller, B. Fischer).
11. Epitaxial lateral overgrowth in GaN (A. Usui, A. Sakai).
12. Effects of buffer layer and advanced technologies on heroepitaxy of GaN (K. Hiramatsu).
13. Self-assembled quantum dots systems: the case of GaN (B. Daudin).
14. Self-organised growth of silicon nanocrystal in nanocrystalline Si/SiO2 superlattices (L. Tsybeskov, D.J. Lockwood).
15. Growth and characterization of semiconductor silicon carbidge for electronic and optoelectron applications: an industrial perspective (H. McD. Hobgood, et al.).
16. Epitaxial growth of semiconductor silicon carbide: Fundamentals (H. Matsunami, T. Kimoto).
17. Crystal growth and characterization of magnetic semiconductors (K. Sato).
18. X-ray characterization of epitaxial layers (Y. Takeda, M. Tabuchi).
19. Principles and applications of optical crystals: their stoichiometry study (S. Miyazawa).
Part 3. Dynamics of crystal-liquid interface
20. Surface X-ray diffraction studies of crystal growth (E. Vlieg, M. Reedijk, J. Arsic).
21. Using atomic force microscopy to investigate solution crystal growth (J. J. De Yoreo, C.A. Orme, T.A. Land).
22. Crystal morphology control with tailor-made additives: A
stereochemical approach (I. Wiesbuch, M. Lahav, L. Leiserowitz).
23. Crystal engineering of biological soft materials (K. Sato).