
This book aims to explain how and why the detailed three-dimensional architecture of molecules can be determined by an analysis of the diffraction patterns obtained when X rays or neutrons are scattered by the atoms in single crystals. Part 1 deals with the nature of the crystalline state, diffraction generally, and diffraction by crystals in particular, and, briefly, the experimental procedures that are used. Part II examines the problem of converting the experimentally obtained data into a model of the atomic arrangement that scattered these beams. Part III is concerned with the techniques for refining the approximate structure to the degree warranted by the experimental data. It also describes the many types of information that can be learned by modern crystal structure analysis. There is a glossary of terms used and several appendixes to which most of the mathematical details have been relegated.
This text investigates the fundamental principles and methodologies required to determine the three-dimensional atomic architecture of molecules through diffraction analysis. Authors Jenny P. Glusker and Kenneth N. Trueblood provide a structured framework for understanding how X-ray and neutron scattering data are processed into precise molecular models. The book serves as a foundational guide for students and researchers, organizing complex physical concepts into a logical progression from experimental theory to structural refinement.
What You Will Find
Scope Limits
Experts and academics frequently cite this work as a foundational primer for those entering the field of crystallography. Readers often note the clarity of the prose, which effectively bridges the gap between theoretical physics and practical laboratory application.
Page Count:
304
Publication Date:
2010-01-01
Publisher:
OUP Oxford
ISBN-10:
0191604240
ISBN-13:
9780191604249
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