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S2E5. NMR Spectroscopy
In this episode of The Chemistry Show, we explore Nuclear Magnetic Resonance (NMR) as one of the most powerful and versatile tools in structural inorganic chemistry. Beginning with the fundamental physics of NMR, the episode explains how nuclear spins interact with magnetic fields and electrons, and how parameters such as chemical shifts, coupling constants, and relaxation encode information about bonding, hybridization, and molecular geometry. Interactions such as Fermi contact are introduced to show how electron–nucleus coupling reveals local electronic structure.
Powered by AI (Google NotebookLM), this episode is based on lecture material from the Structural Methods in Inorganic Chemistry course taught by Prof. Pedro Camargo at the University of Helsinki, and helps students connect NMR theory directly to real-world structural problems.
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By Pedro CamargoIn this episode of The Chemistry Show, we explore Nuclear Magnetic Resonance (NMR) as one of the most powerful and versatile tools in structural inorganic chemistry. Beginning with the fundamental physics of NMR, the episode explains how nuclear spins interact with magnetic fields and electrons, and how parameters such as chemical shifts, coupling constants, and relaxation encode information about bonding, hybridization, and molecular geometry. Interactions such as Fermi contact are introduced to show how electron–nucleus coupling reveals local electronic structure.
Powered by AI (Google NotebookLM), this episode is based on lecture material from the Structural Methods in Inorganic Chemistry course taught by Prof. Pedro Camargo at the University of Helsinki, and helps students connect NMR theory directly to real-world structural problems.