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Understanding NMR Spectroscopy
James Keeler's note on NMR spectroscopy is rather solid in presenting principles of NMR along with its application to chemical structure analysis. It covers key topics like energy levels involved in NMR, the vector model, Fourier transformation, and data processing. The note explains how NMR spectrometers work and introduces more advanced techniques like two-dimensional NMR, which permits the analysis of far more detailed complex molecular structures. Additional topics covered include relaxation processes, phase cycling, and gradient pulses to give a full understanding of NMR spectroscopy to students and researchers looking to master this powerful analytical tool.
Author(s): James Keeler
NA Pages 
Understanding NMR Spectroscopy
James Keeler's note on NMR spectroscopy is rather solid in presenting principles of NMR along with its application to chemical structure analysis. It covers key topics like energy levels involved in NMR, the vector model, Fourier transformation, and data processing. The note explains how NMR spectrometers work and introduces more advanced techniques like two-dimensional NMR, which permits the analysis of far more detailed complex molecular structures. Additional topics covered include relaxation processes, phase cycling, and gradient pulses to give a full understanding of NMR spectroscopy to students and researchers looking to master this powerful analytical tool.
Author(s): James Keeler
NA Pages
Magnetic Resonance Spectroscopy
This note focuses on the applications of Magnetic Resonance Spectroscopy (MRS) in clinical and non-clinical practice. The book is divided into two parts: MRS inside the clinic, such as imaging and analyzing metabolic processes in vivo, which will be presented in the first part of the book, and applications of MRS outside the clinic in fields including biochemistry, neuroscience, and pharmacology. As the note discusses both clinical and research applications, it allows for a very comprehensive look at how MRS can be used to probe biochemical and metabolic processes. This note would be an excellent resource for students and professionals in the medical and scientific communities.
Author(s): Dong-Hyun Kim
NA Pages