X-Ray and neutron diffraction. Clegg, W. In Constable, E. C., Parkin, G., & Que, L. J., editors, Comprehensive coordination chemistry III, pages 60-76. Elsevier, 2021. ![X-Ray and neutron diffraction [link]](https://bibbase.org/img/filetypes/link.svg "link")
Paper doi abstract bibtex Diffraction methods offer the most powerful and information-rich approach to chemical structure determination. Of these, the most widely used is single-crystal X-ray diffraction, but the application of the technique is broadened by the use of neutrons and with microcrystalline powders instead of single crystal samples. The method, in use for over a century and well established, continues to be developed. This article describes important advances made in recent decades, covering radiation sources, experimental equipment, computational methods, and the analysis and use of the structural results obtained.
@incollection{Clegg_2021,
author = {Clegg, William},
title = {X-Ray and neutron diffraction},
editor = {Constable, Edwin C. and Parkin, Gerard and Que, Lawrence Jr.},
booktitle = {Comprehensive coordination chemistry III},
publisher = {Elsevier},
adress = {Amsterdam, The Netherlands},
pages = {60-76},
year = {2021},
isbn = {978-0-08-102689-2},
doi = {h10.1016/B978-0-12-409547-2.14635-9},
url = {https://www.sciencedirect.com/science/article/pii/B9780124095472146359},
keywords = {Accuracy, Crystal structure, Crystallography, Diffraction, Neutrons, Powder, Precision, Scattering, Single crystals, Structure determination, Synchrotron, Validation, X-rays},
abstract = {Diffraction methods offer the most powerful and information-rich approach to chemical structure determination. Of these, the most widely used is single-crystal X-ray diffraction, but the application of the technique is broadened by the use of neutrons and with microcrystalline powders instead of single crystal samples. The method, in use for over a century and well established, continues to be developed. This article describes important advances made in recent decades, covering radiation sources, experimental equipment, computational methods, and the analysis and use of the structural results obtained.}
}
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