Two-Dimensional (2D) NMR Methods
Product details
- ISBN 9781119806691
- Weight: 1531g
- Dimensions: 203 x 254mm
- Publication Date: 18 May 2023
- Publisher: John Wiley & Sons Inc
- Publication City/Country: US
- Product Form: Hardback
- Language: English
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Practical guide explaining the fundamentals of 2D-NMR for experienced scientists as well as relevant for advanced students
Two-Dimensional (2D) NMR Methods is a focused work presenting an overview of 2D-NMR concepts and techniques, including basic principles, practical applications, and how NMR pulse sequences work.
Contributed to by global experts with extensive experience in the field, Two-Dimensional (2D) NMR Methods provides in-depth coverage of sample topics such as:
- Basics of 2D-NMR, data processing methods (Fourier and beyond), product operator formalism, basics of spin relaxation, and coherence transfer pathways
- Multidimensional methods (single- and multiple-quantum spectroscopy), NOESY (principles and applications), and DOSY methods
- Multiple acquisition strategies, anisotropic NMR in molecular analysis, ultrafast 2D methods, and multidimensional methods in bio-NMR
- TROSY (principles and applications), field-cycling and 2D NMR, multidimensional methods and paramagnetic NMR, and relaxation dispersion experiments
This text is a highly useful resource for NMR specialists and advanced students studying NMR, along with users in research, academic and commercial laboratories that study or conduct experiments in NMR.
K.L. Ivanov (International Tomography Center, Novosibirsk, Russia) was actively involved in teaching at the Novosibirsk State University, ITC Novosibirsk, and at various schools for young researchers, and was a specialist in NMR theory and NMR methods development, notably, spin hyperpolarization methods.
P.K. Madhu (Tata Institute of Fundamental Research, Hyderabad, India) has contributed to NMR relaxation theory, methods development in solid-state NMR and biophysical applications of NMR. He currently has interests in zero-field NMR and application of NMR in perovskites and battery materials.
G. Rajalakshmi (Tata Institute of Fundamental Research, Hyderabad, India) is an experimental physicist developing zero to ultra-low field NMR techniques for solid-state experiments. She also works on nonlinear optical-atomic magnetometry methods for detecting dc to rf magnetic fields.