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NMR for Chemists and Biologists Rodrigo J Carbajo

NMR for Chemists and Biologists By Rodrigo J Carbajo

NMR for Chemists and Biologists by Rodrigo J Carbajo

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Summary

This book intends to be an easy and concise introduction to the field of nuclear magnetic resonance or NMR, which has revolutionized life sciences in the last twenty years.

NMR for Chemists and Biologists Summary

NMR for Chemists and Biologists by Rodrigo J Carbajo

This book intends to be an easy and concise introduction to the field of nuclear magnetic resonance or NMR, which has revolutionized life sciences in the last twenty years. A significant part of the progress observed in scientific areas like Chemistry, Biology or Medicine can be ascribed to the development experienced by NMR in recent times. Many of the books currently available on NMR deal with the theoretical basis and some of its main applications, but they generally demand a strong background in Physics and Mathematics for a full understanding. This book is aimed to a wide scientific audience, trying to introduce NMR by making all possible effort to remove, without losing any formality and rigor, most of the theoretical jargon that is present in other NMR books. Furthermore, illustrations are provided that show all the basic concepts using a naive vector formalism, or using a simplified approach to the particular NMR-technique described. The intention has been to show simply the foundations and main concepts of NMR, rather than seeking thorough mathematical expressions.

NMR for Chemists and Biologists Reviews

From the reviews:

The book would be particularly valuable for students who are beginning to conduct research involving NMR spectroscopy. Summing Up: Recommended. Upper-division undergraduates, graduate students, and researchers/faculty. (A. Fry, Choice, Vol. 51 (8), April, 2014)

Table of Contents

1. The basis of Nuclear Magnetic Resonance Spectroscopy
1.1. Introduction
1.2. Physical principles of NMR spectroscopy
1.2.1. The basis of NMR spectroscopy: a vector approach
1.2.2. The basis of NMR spectroscopy: a naive quantum approach
1.2.3. The nuclei in NMR
1.3. Spin relaxation
1.3.1. Spin-lattice relaxation time
1.3.2. Spin-spin relaxation time
1.3.3. Sources of variation in local fields
1.4. Pulse techniques
1.4.1. How a pulse works: the time and frequency domains
1.4.2. Multipulse experiments: measurement of the T1- and T2-relaxation times as examples
1.5. Practical aspects of NMR
1.5.1. The magnet
1.5.2. The probe
1.5.3. The lock-system
1.5.4. The transmitter/receiver system: quadrature detection
1.5.5. The shim system
1.5.6. Pulse field gradients
1.5.7. Sample preparation
1.6. References

2. Spectroscopic parameters in Nuclear Magnetic Resonance
2.1. The chemical shift and the spectral intensity
2.1.1. The shielding screening constant
2.1.2. The chemical shift
2.1.3. Signal intensity
2.2. The scalar coupling constant
2.2.1. Spin-spin coupling2.2.2. How does spin-spin coupling occur?
2.2.3. Variations in the value of J
2.2.4. Spin-spin decoupling
2.3. The nuclear Overhauser effect
2.3.1. The basis of the NOE: a two spin system
2.3.2. NOEs in multi-spin systems
2.4. References

3. Basic NMR experiments
3.1. Introduction
3.2. 1D NMR
3.2.1. Sensitivity and frequency
3.2.2. Acquisition and processing
3.2.3. 1D spectra of 1H, 13C,31P and 19F
3.3. Multidimensional NMR
3.3.1. Generating dimensions in NMR
3.3.2. 2D data acquisition and processing
3.4. Homonuclear shift correlation: correlations through the chemical bond
3.4.1. COSY. Experiment interpretation and practical aspects
3.4.2. TOCSY. Practical aspects
3.4.3. Correlation for diluted spins: the INADEQUATE experiment. Double-quantum selection
3.5. Heteronuclear shift correlation: correlations through the chemical bond
3.5.1. Polarization transfer experiments: SPT and INEPT sequences; indirect spectroscopy
3.5.2. Heteronuclear single bond correlations: HSQC and HMQC
3.5.3. Double resonance experiments: homonuclear spin decoupling; heteronuclear double resonance and broadband decoupling
3.6. Correlations through space
3.6.1. Steady-state NOE
3.6.2. Kinetic or transient NOE
3.6.3. The 2D-NOESY sequence and practical aspects of the experiment
3.7. References

4. Biomolecular NMR
4.1. Introduction
4.2. Why biomolecules? Main applications
4.3. Structure of biomolecules
4.3.1. Homonuclear and heteronuclear (triple resonance) assignment in proteins
4.3.2. Nucleic acids
4.4. Biomolecular dynamics
4.4.1. Comparison with other spectroscopies and other structural biophysical techniques
4.4.2. Movements in the ps-s range
4.5. Biomolecular interactions (NMR in drug discovery)
4.5.1. Order of the affinities measured
4.5.2. Experiments in NMR screening
4.6. Other applications
4.6.1. Metabolomics
4.6.2. Solid state NMR and HR-MAS
4.7. References

Additional information

NLS9789400769755
9789400769755
940076975X
NMR for Chemists and Biologists by Rodrigo J Carbajo
Rodrigo J Carbajo
SpringerBriefs in Biochemistry and Molecular Biology
New
Paperback
Springer
2013-07-04
115
N/A
Book picture is for illustrative purposes only, actual binding, cover or edition may vary.
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Customer Reviews - NMR for Chemists and Biologists