NMR spectroscopy in the undergraduate curriculum
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NMR spectroscopy in the undergraduate curriculum
(ACS symposium series)
Oxford University Press, 2022
- hbk.
- Other Title
-
In-person and distance learning approaches
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Description and Table of Contents
Description
Strategies to integrate NMR spectroscopy in-person and virtually
Nuclear magnetic resonance spectroscopy has grown to be an important part of the undergraduate curriculum; however, lack of access to chemical instrumentation and experiential learning has introduced a difficult challenge for educators. This work expands on topics covered in the first three volumes (1128, 1221, and 1225), including a new focus on approaches to incorporate NMR spectrometers into the curriculum for in-person and distance learning. Chapters explore the characterization of organic
molecules and synthetic products using NMR, quantitative and computational methods employing NMR, and novel applications of multinuclear and multidimensional NMR.
Table of Contents
Preface
Characterization of Organic Molecules and Synthetic Products Using NMR
Chapter 1: Application of Benchtop Nuclear Magnetic Resonance for Structure Elucidation in a Multi-Outcome Experiment: Microwave-Promoted Reduction of Unknown Aldehydes and Ketones, Mengqi Zhang and Richard W. Morrison
Chapter 2: 13C NMR with Proton Coupling Allows Teaching of Hybridization of C-H Bonds on an Experimental Basis, Donald D. Clarke
Chapter 3: Scaffolding NMR Teaching and Learning at an Undergraduate Program in a Virtual World, Susan M. Schelble, William Cole Cronk, and John Buckner
Chapter 4: Synthesis and NMR Spectroscopic Characterization of 1H-1,2,3-Triazoles, Christopher R. Butler, Loren J. Taylor, and Allen M. Schoffstall
Chapter 5: An Inquiry-Based Approach to Electrophilic Aromatic Substitution: Quantifying and Identifying Nitration Products by 1H NMR, Nanette M. Wachter, Nicole Wedad Khouryawad, and Haley E. Tarbox
Quantitative and Computational Methods Employing NMR
Chapter 6: Physical Chemistry Laboratory Projects Using Vapor Phase NMR, Thomas C. DeVore and Jun Yin
Chapter 7: Synergy between Spectroscopy and Computation: Determining the Major Conformer of an Unexpected Diels-Alder Reaction Product, John E. Hanson and Luc Boisvert
Chapter 8: Quantitative NMR in Undergraduate Labs, Juan F. Araneda, Michael A. Bernstein, Terry Chu, Matthew C. Leclerc, and Susanne D. Riegel
Chapter 9: Using Internet-Based Approaches to Enhance the Teaching of NMR Spectroscopy across the Undergraduate Curriculum, David P. Soulsby
Chapter 10: Kinetic Investigations of Acid-Catalyzed Enolization of Acetophenones by 1H NMR: Analyzing the Effect of Substituents on the Rate of Deuterium Exchange, Nanette M. Wachter and Haley E. Tarbox
Novel Applications of Multinuclear and Multidimensional NMR
Chapter 11: Using 19F NMR Spectra to Enhance Undergraduate Organic Teaching and Research Labs, Melvin Druelinger and David Dillon
Chapter 12: Using the HSQC Experiment to Teach 2D NMR Spectroscopy in Physical Chemistry, Teresa Longin
Chapter 13: Heteronuclear NMR Spectroscopy in the Undergraduate Curriculum: Direct and Indirect Effects, Sara S. Rocks and Robert A. Stockland
Chapter 14: Synthesis and NMR Characterization of a Dihydropyrazine, a Tetrahydroquinoxaline, and a Tetrahydrooxadiazolopyrazine, MacKinnly Knoerzer, Gavin R. Hoffman, Hannah K.Maben, Andrew T.McGrath, Andrew D. Outlaw, Brett Mayer, and Allen M. Schoffstall
Chapter 15: Teaching Multidimensional Heteronuclear NMR Analysis to Undergraduate Students, Nathan T. Wright and C. Jackson White
Editors' Biographies
Author Index
Subject Index
by "Nielsen BookData"