Nuclear Magnetic Resonance: Principles and Applications

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Introduction to Magnetic Resonance

Covers the fundamental principles of magnetic resonance and its applications in chemistry.

Magnetic Resonance Imaging: Principles and Applications

Covers the principles and applications of magnetic resonance imaging, including NMR spectroscopy, multi-dimensional imaging, and image contrast mechanisms.

Chemical Shifts: Basics and Applications

Explores the basics of chemical shifts in nuclear magnetic resonance and their diverse applications in various compounds and environments.

Basic Steps in Magnetic Resonance

Covers the basic steps in magnetic resonance, including spins, energy levels, and NMR spectroscopy.

Basic Steps in Magnetic Resonance

Covers the basic steps in magnetic resonance, including NMR spectroscopy and chemical shifts.

Protein Structure Determination

Explores protein structure determination through X-ray crystallography, NMR spectroscopy, and Cryo-EM, covering crystallization, diffraction patterns, and atomic models.

Quantum Description of Pulsed NMR

Explores the quantum principles behind Pulsed NMR Spectroscopy, including Zeeman interaction and spin manipulation through radiofrequency irradiation.

Sensitivity of MRI

Explores the sensitivity of MRI and ways to enhance it through magnetic field adjustments and different field strengths for various imaging applications.

Chemical Exchange in NMR

Explores chemical exchange effects in NMR, broadening NMR lines and providing insights into chemical reactions and molecular rearrangements.

Solid-state NMR and Quadrupoles

Explores solid-state NMR principles, anisotropic chemical shifts, quadrupolar interactions, and high-resolution techniques.