Probing hydrogen bonding in solids using solid state NMR spectroscopy
作者: Kenneth Harris , AE Aliev
DOI:
关键词: Deuterium NMR 、 Carbon-13 NMR 、 Nuclear magnetic resonance spectroscopy of nucleic acids 、 J-coupling 、 Nuclear magnetic resonance crystallography 、 Fluorine-19 NMR 、 Carbon-13 NMR satellite 、 Chemistry 、 Nuclear magnetic resonance spectroscopy 、 Chemical physics 、 Analytical chemistry
摘要: Solid state nuclear magnetic resonance (NMR) spectroscopy is a powerful and versatile technique for probing structural dynamic properties of solid materials, can provide detailed insights into the hydrogen bonded systems. Of particular interest in this regard are NMR experiments that investigate either atom directly involved bond (employing H-1 or H-2 techniques) atoms within, close proximity of, donor acceptor groups (employing, example, C-13,(SN)-S-15, O-17, Si-29 P-31 techniques). To large extent, versatility arises from multinuclear capability, fact there considerable complementarity information studies different nuclei provide. The aim chapter to highlight some ways which techniques, encompassing both traditional recently developed methods, be exploited towards understanding fundamental solids, focusing on organic molecular materials.
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