URV's Author/s: | Medina Cabello, Francisco / Tampieri, Alberto |
Author, as appears in the article.: | Tampieri, Alberto; Szabo, Mark; Medina, Francesc; Gulyas, Henrik; |
Author's mail: | alberto.tampieri@estudiants.urv.cat alberto.tampieri@estudiants.urv.cat francesc.medina@urv.cat |
Author identifier: | 0000-0002-3111-1542 |
Journal publication year: | 2021 |
Publication Type: | Journal Publications |
APA: | Tampieri, Alberto; Szabo, Mark; Medina, Francesc; Gulyas, Henrik; (2021). A brief introduction to the basics of NMR spectroscopy and selected examples of its applications to materials characterization. Physical Sciences Reviews, 6(1), -. DOI: 10.1515/psr-2019-0086 |
Papper original source: | Physical Sciences Reviews. 6 (1): |
Abstract: | Nuclear magnetic resonance (NMR) spectroscopy is an analytical technique that gives information on the local magnetic field around atomic nuclei. Since the local magnetic field of the nucleus is directly influenced by such features of the molecular structure as constitution, configuration, conformation, intermolecular interactions, etc., NMR can provide exhaustive information on the chemical structure, which is unrivaled by any other analytical method. Starting from the 1950s, NMR spectroscopy first revolutionized organic chemistry and became an indispensable tool for the structure elucidation of small, soluble molecules. As the technique evolved, NMR rapidly conquered other disciplines of chemical sciences. When the analysis of macromolecules and solids also became feasible, the technique turned into a staple in materials characterization, too. All aspects of NMR spectroscopy, including technical and technological development, as well as its applications in natural sciences, have been growing exponentially since its birth. Hence, it would be impossible to cover, or even touch on, all topics of importance related to this versatile analytical tool. In this tutorial, we aim to introduce the reader to the basic principles of NMR spectroscopy, instrumentation, historical development and currently available brands, practical cost aspects, sample preparation, and spectrum interpretation. We show a number of advanced techniques relevant to materials characterization. Through a limited number of examples from different fields of materials science, we illustrate the immense scope of the technique in the analysis of materials. Beyond our inherently limited introduction, an ample list of references should help the reader to navigate further in the field of NMR spectroscopy. |
Article's DOI: | 10.1515/psr-2019-0086 |
Link to the original source: | https://www.degruyter.com/document/doi/10.1515/psr-2019-0086/html |
Papper version: | info:eu-repo/semantics/submittedVersion |
Department: | Enginyeria Química |
Licence document URL: | https://repositori.urv.cat/ca/proteccio-de-dades/ |
Thematic Areas: | Physics and astronomy (miscellaneous) Physics and astronomy (all) Multidisciplinary sciences Materials science (miscellaneous) Materials science (all) General physics and astronomy General materials science General chemistry Chemistry (miscellaneous) Chemistry (all) |
Keywords: | Ultrafast 2d nmr Solid-state nmr Signal enhancement Rotational-echo Quadrupolar nuclei Pulse sequences Pfg nmr porous materials Operando nmr Nuclear magnetic resonance spectroscopy Natural-abundance Materials characterization Mas nmr Liquid-phase nmr In situ nmr Dynamic nuclear-polarization Dynamic nuclear polarization Chemical-shifts Angle-spinning nmr |
Funding program: | Marie Skłodowska-Curie Actions - European Union's Horizon 2020 research and innovation programme |
Funding program action: | Conversion of plastic waste into fuel and added-value chemicals TECSPR16-1-0016 |
Acronym: | DECOM-PE |
Project code: | grant agreement No. 712949 |
Entity: | Universitat Rovira i Virgili |
Record's date: | 2024-07-27 |
Description: | Nuclear magnetic resonance (NMR) spectroscopy is an analytical technique that gives information on the local magnetic field around atomic nuclei. Since the local magnetic field of the nucleus is directly influenced by such features of the molecular structure as constitution, configuration, conformation, intermolecular interactions, etc., NMR can provide exhaustive information on the chemical structure, which is unrivaled by any other analytical method. Starting from the 1950s, NMR spectroscopy first revolutionized organic chemistry and became an indispensable tool for the structure elucidation of small, soluble molecules. As the technique evolved, NMR rapidly conquered other disciplines of chemical sciences. When the analysis of macromolecules and solids also became feasible, the technique turned into a staple in materials characterization, too. All aspects of NMR spectroscopy, including technical and technological development, as well as its applications in natural sciences, have been growing exponentially since its birth. Hence, it would be impossible to cover, or even touch on, all topics of importance related to this versatile analytical tool. In this tutorial, we aim to introduce the reader to the basic principles of NMR spectroscopy, instrumentation, historical development and currently available brands, practical cost aspects, sample preparation, and spectrum interpretation. We show a number of advanced techniques relevant to materials characterization. Through a limited number of examples from different fields of materials science, we illustrate the immense scope of the technique in the analysis of materials. Beyond our inherently limited introduction, an ample list of references should help the reader to navigate further in the field of NMR spectroscopy. |
Type: | Journal Publications |
Contributor: | Universitat Rovira i Virgili |
Títol: | A brief introduction to the basics of NMR spectroscopy and selected examples of its applications to materials characterization |
Subject: | Chemistry (Miscellaneous),Materials Science (Miscellaneous),Multidisciplinary Sciences,Physics and Astronomy (Miscellaneous) Ultrafast 2d nmr Solid-state nmr Signal enhancement Rotational-echo Quadrupolar nuclei Pulse sequences Pfg nmr porous materials Operando nmr Nuclear magnetic resonance spectroscopy Natural-abundance Materials characterization Mas nmr Liquid-phase nmr In situ nmr Dynamic nuclear-polarization Dynamic nuclear polarization Chemical-shifts Angle-spinning nmr Physics and astronomy (miscellaneous) Physics and astronomy (all) Multidisciplinary sciences Materials science (miscellaneous) Materials science (all) General physics and astronomy General materials science General chemistry Chemistry (miscellaneous) Chemistry (all) |
Date: | 2021 |
Creator: | Tampieri, Alberto Szabo, Mark Medina, Francesc Gulyas, Henrik |
Rights: | info:eu-repo/semantics/openAccess |
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