X-Ray Crystallography
Agotado
Precio original
$92.00
-
Precio original
$92.00
Precio original
$92.00
$92.00
-
$92.00
Precio actual
$92.00
Description
Featuring excellent illustrations and homework problems throughout, the book is intended both for advanced undergraduate and graduate students who are learning the subject for the first time, as well as for those who have practical experience but seek a text summarizing the theory of diffraction and X-ray crystallography.
X-Ray Crystallography is a well-balanced, thorough, and clearly written introduction to the most important and widely practiced technique to determine the arrangement of atoms in molecules and solids. Featuring excellent illustrations and homework problems throughout, the book is intended both for advanced undergraduate and graduate students who are learning the subject for the first time, as well as for those who have practical experience but seek a text summarizing the theory of diffraction and X-ray crystallography. It is organized into three parts: Part 1 deals with symmetry and space groups, Part 2 explains the physics of X rays and diffraction, and Part 3 examines the methods for solving and refining crystal structures. The discussion proceeds in a logical and clear fashion from the fundamentals through to advanced topics such as disorder, twinning, microfocus sources, low energy electron diffraction, charge flipping, protein crystallography, the maximum likelihood method of refinement, and powder, neutron, and electron diffraction. The authorâs clear writing style and distinctive approach is well suited for chemists, biologists, materials scientists, physicists, and scientists from related disciplines. A detailed Instructorâs Manual is available for adopting professors.Preface and Acknowledgmentsâ
SECTION 1. Symmetry and Space Groups
Chapter 1. Introductionâ
Chapter 2. Point Symmetry Operationsâ
Chapter 3. Point Groupsâ
Chapter 4. Periodicityâ
Chapter 5. Travel Symmetry Operationsâ
Chapter 6. Two-dimensional Latticesâ
Chapter 7. Three-dimensional Latticesâ
Chapter 8. Two-dimensional Plane Groupsâ
Chapter 9. Equivalent Positionsâ
Chapter 10. Three-dimensional Space Groups, Part 1â
Chapter 11. Three-dimensional Space Groups, Part 2â
Chapter 12. Three-dimensional Space Groups, Part 3â
SECTION 2. X-rays and Diffraction
Chapter 13. Generation of X-raysâ
Chapter 14. Diffractometers and Data Collectionâ
Chapter 15. Data Reductionâ
Chapter 16. Scattering from a Single Electronâ
Chapter 17. Scattering from Atomsâ
Chapter 18. Diffraction from One-dimensional Arraysâ
Chapter 19. Diffraction from Two- and Three-dimensional Arraysâ
Chapter 20. Reciprocal Space and Reflection Indicesâ
Chapter 21. Braggâs Law, Scattering Planes, and d-Spacingsâ
Chapter 22. The Limiting Sphere, Resolution, and Indexingâ
Chapter 23. Structure Factors and Argand Diagramsâ
Chapter 24. Phases, Friedelâs Law, and Laue Classesâ
Chapter 25. Centrosymmetry and Chiralityâ
Chapter 26. Reflection Conditionsâ
Chapter 27. Determining the Space Group of a Crystalâ
SECTION 3. Solving and Refining Crystal Structures
Chapter 28. Fourier Transforms in Crystallographyâ
Chapter 29. Trial-and-error Methodsâ
Chapter 30. Charge Flippingâ
Chapter 31. The Patterson Methodâ
Chapter 32. The Heavy Atom Approximationâ
Chapter 33. Protein Crystal Structuresâ
Chapter 34. Direct Methods, Part 1â
Chapter 35. Direct Methods, Part 2â
Chapter 36. Modeling the Electron Densityâ
Chapter 37. Refining Crystal Structuresâ
Chapter 38. Twinningâ
Chapter 39. Examples of Twinned Crystalsâ
Chapter 40. Mistakes and Pitfallsâ
Chapter 41. Powder X-ray Diffractionâ
Chapter 42. Electron and Neutron Diffractionâ
Appendix A. Vector Tutorialâ
Appendix B. Complex Number Tutorialâ
Appendix C. The Ewald Sphereâ
Appendix D. Atomic Form Factorsâ
Appendix E. The Patterson Functionâ
Appendix F. In-class Demonstration of Diffraction"Girolami, an expert in the area, understands key issues of crystallography from the standpoint of a practicing chemist. He communicates in a crisp style. I found his presentation of the topic to be clear and interesting, and would use this text as part of a course in chemical crystallography for advanced undergrads and beginning grad students." --Professor Eric Schelter, University of Pennsylvania
"I wish to congratulate the author on an excellent book, this is something that has been sorely missed. I have used several books over the years, but this one has exactly the right level, and the exercises are very useful as well." --Jacob Overgaard, Aarhus University
"This is a very readable text, and generally very well written with good coverage and many excellent exercises. I particularly liked the chapters on symmetry and direct methods." --Dr. Marvin L. Hackert, The University of Texas at Austin
"This text is very comprehensive, giving history, the never-changing basics of symmetry and diffraction, but also modern insights into synchrotron techniques etc. The number of illustrations and examples is wonderful, and I very much appreciate that this book does not shy away from the vector math necessary to show the properties of scattering and reciprocal space!" --Cora Lind-Kovacs, University of Toledo
X-Ray Crystallography is a well-balanced, thorough, and clearly written introduction to the most important and widely practiced technique to determine the arrangement of atoms in molecules and solids. Featuring excellent illustrations and homework problems throughout, the book is intended both for advanced undergraduate and graduate students who are learning the subject for the first time, as well as for those who have practical experience but seek a text summarizing the theory of diffraction and X-ray crystallography. It is organized into three parts: Part 1 deals with symmetry and space groups, Part 2 explains the physics of X rays and diffraction, and Part 3 examines the methods for solving and refining crystal structures. The discussion proceeds in a logical and clear fashion from the fundamentals through to advanced topics such as disorder, twinning, microfocus sources, low energy electron diffraction, charge flipping, protein crystallography, the maximum likelihood method of refinement, and powder, neutron, and electron diffraction. The authorâs clear writing style and distinctive approach is well suited for chemists, biologists, materials scientists, physicists, and scientists from related disciplines. A detailed Instructorâs Manual is available for adopting professors.Preface and Acknowledgmentsâ
SECTION 1. Symmetry and Space Groups
Chapter 1. Introductionâ
Chapter 2. Point Symmetry Operationsâ
Chapter 3. Point Groupsâ
Chapter 4. Periodicityâ
Chapter 5. Travel Symmetry Operationsâ
Chapter 6. Two-dimensional Latticesâ
Chapter 7. Three-dimensional Latticesâ
Chapter 8. Two-dimensional Plane Groupsâ
Chapter 9. Equivalent Positionsâ
Chapter 10. Three-dimensional Space Groups, Part 1â
Chapter 11. Three-dimensional Space Groups, Part 2â
Chapter 12. Three-dimensional Space Groups, Part 3â
SECTION 2. X-rays and Diffraction
Chapter 13. Generation of X-raysâ
Chapter 14. Diffractometers and Data Collectionâ
Chapter 15. Data Reductionâ
Chapter 16. Scattering from a Single Electronâ
Chapter 17. Scattering from Atomsâ
Chapter 18. Diffraction from One-dimensional Arraysâ
Chapter 19. Diffraction from Two- and Three-dimensional Arraysâ
Chapter 20. Reciprocal Space and Reflection Indicesâ
Chapter 21. Braggâs Law, Scattering Planes, and d-Spacingsâ
Chapter 22. The Limiting Sphere, Resolution, and Indexingâ
Chapter 23. Structure Factors and Argand Diagramsâ
Chapter 24. Phases, Friedelâs Law, and Laue Classesâ
Chapter 25. Centrosymmetry and Chiralityâ
Chapter 26. Reflection Conditionsâ
Chapter 27. Determining the Space Group of a Crystalâ
SECTION 3. Solving and Refining Crystal Structures
Chapter 28. Fourier Transforms in Crystallographyâ
Chapter 29. Trial-and-error Methodsâ
Chapter 30. Charge Flippingâ
Chapter 31. The Patterson Methodâ
Chapter 32. The Heavy Atom Approximationâ
Chapter 33. Protein Crystal Structuresâ
Chapter 34. Direct Methods, Part 1â
Chapter 35. Direct Methods, Part 2â
Chapter 36. Modeling the Electron Densityâ
Chapter 37. Refining Crystal Structuresâ
Chapter 38. Twinningâ
Chapter 39. Examples of Twinned Crystalsâ
Chapter 40. Mistakes and Pitfallsâ
Chapter 41. Powder X-ray Diffractionâ
Chapter 42. Electron and Neutron Diffractionâ
Appendix A. Vector Tutorialâ
Appendix B. Complex Number Tutorialâ
Appendix C. The Ewald Sphereâ
Appendix D. Atomic Form Factorsâ
Appendix E. The Patterson Functionâ
Appendix F. In-class Demonstration of Diffraction"Girolami, an expert in the area, understands key issues of crystallography from the standpoint of a practicing chemist. He communicates in a crisp style. I found his presentation of the topic to be clear and interesting, and would use this text as part of a course in chemical crystallography for advanced undergrads and beginning grad students." --Professor Eric Schelter, University of Pennsylvania
"I wish to congratulate the author on an excellent book, this is something that has been sorely missed. I have used several books over the years, but this one has exactly the right level, and the exercises are very useful as well." --Jacob Overgaard, Aarhus University
"This is a very readable text, and generally very well written with good coverage and many excellent exercises. I particularly liked the chapters on symmetry and direct methods." --Dr. Marvin L. Hackert, The University of Texas at Austin
"This text is very comprehensive, giving history, the never-changing basics of symmetry and diffraction, but also modern insights into synchrotron techniques etc. The number of illustrations and examples is wonderful, and I very much appreciate that this book does not shy away from the vector math necessary to show the properties of scattering and reciprocal space!" --Cora Lind-Kovacs, University of Toledo
PUBLISHER:
MIT Press
ISBN-10:
1891389777
ISBN-13:
9781891389771
BINDING:
Hardback
PUBLICATION YEAR:
2015
NUMBER OF PAGES:
512
BOOK DIMENSIONS:
7.2500(W) x 10.0000(H) x
AUDIENCE TYPE:
General/Adult
LANGUAGE:
English