Synopses & Reviews
A graduate level textbook for materials scientists that describes the established principles of crystallography and bonding.
Review
'... a remarkably pointed example of how times have changed. The real strengths of the book are its depth of coverage, bridging advanced undergraduate and postgraduate work, and its material-based approach.' Joan Halfpenny, Chemistry of Britain
Review
'... an approach to the subject of structure and bonding in crystalline solids ... can be recommended for everyone concerned with crystalline solids in the broadest sense, as a useful compendium and handbook of long-lasting value.' Peter Kroll, Angewandte Chemie
Synopsis
One of the motivating questions in materials research today is, how can elements be combined to produce a solid with specified properties? This book describes established principles of crystallography and bonding that are needed to address the fundamental relationship between structure and cohesion in crystalline solids. Containing a large number of worked examples, exercises, and detailed descriptions of crystal structures, this book is primarily intended as a graduate level textbook for students of materials science. It will also be useful to scientists and engineers who work with solid materials.
About the Author
Gregory S. Rohrer is a Professor of Materials Science and Engineering at Carnegie Mellon University. Prof. Rohrer was born in Lancaster, PA, in 1962. He received his bachelor's degree in Physics from Franklin and Marshall College in 1984 and his Ph.D. in Materials Science and Engineering from the University of Pennsylvania in 1989. At CMU, Prof. Rohrer is the director of the NSF sponsored Materials Research Science and Engineering Center. His research is directed toward understanding how the properties of surfaces and internal interfaces are influenced by their geometric and crystallographic structure, their stoichiometry, and their defect structure. Prof. Rohrer is an associate Editor for the Journal of the American Ceramic Society and his research earned a National Science Foundation Young Investigator Award in 1994.
Table of Contents
1. Introduction; 2. Basic structural concepts; 3. Symmetry in crystal structures; 4. Crystal structures; 5. Diffraction; 6. Secondary bonding; 7. Ionic bonding; 8. Metallic bonding; 9. Covalent bonding; 10. Models for predicting phase stability and structure; Appendices.