Nuclear magnetic resonance spectroscopy

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Related lectures (32)

Page 3 of 4

Spin Relaxation: Examples and Mechanisms

Explores spin relaxation mechanisms in magnetic resonance, with examples like protein structure determination and solid benzene.

Protein Structure Determination: X-ray vs NMR

Explores protein structure determination using X-ray crystallography and NMR spectroscopy, covering historical significance, crystal formation, diffraction patterns, and challenges in crystallization.

Spin-spin couplings in NMR

Explores spin-spin couplings in NMR, covering equivalent nuclei, molecular symmetry, ³1P NMR spectra, and strong coupling effects.

Supramolecular Chemistry: Multivalency and Binding Constants

Explores multivalency, cooperativity, and binding constants in supramolecular chemistry, emphasizing NMR spectroscopy and isothermal titration calorimetry.

The Biochemistry of Fear and Organic Chemistry Concepts

Delves into the biochemistry of fear and organic chemistry concepts.

Organic Chemistry: Delocalization and Resonance Structures

Discusses organic chemistry's role in everyday compounds and the concept of resonance structures, exploring factors affecting stability and the significance of resonance in understanding reactivity.

Solid-state NMR and Quadrupoles

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

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.

Measurement of Chemical Shift

Covers the fundamentals of measuring chemical shift in MR spectroscopy, focusing on the Free Induction Decay (FID) signal.

Chemical Exchange: Part 2

Explores chemical exchange phenomena in magnetic resonance, including fast exchange processes and Bloch-McConnell equations.