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Lecture
Mass Spectrometry and Molecular Formulas
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Related lectures (31)
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Molecular Chirality: Understanding Organic Chemistry Concepts
Discusses molecular chirality, its rules, and its significance in organic chemistry.
Chirality and Asymmetric Synthesis
Explores the importance of chirality, methods for generating enantiopure compounds, and the synthesis of enantio-enriched compounds.
Molecular Chirality: Rules and Isomerism
Explores molecular chirality rules, priority orders, Z and E isomerism, and energy barriers in rotational isomerism.
Organic Chemistry: Molecular Structure and Nomenclature
Covers the basics of organic chemistry, focusing on molecular structure, nomenclature, and functional groups.
Generation of Enantiopure Compounds
Explores the generation of enantiopure compounds, enantiomer separation, kinetic resolution, conformational analysis, and allylic tension.
Chirality in Organic Compounds: Amino Acids and Enantiomers
Explores the structures of amino acids, chirality, enantiomers, and optical activity, emphasizing their significance in organic chemistry.
Symmetry and Group Theory
Covers molecular orbitals, symmetry species, IR and Raman modes, isomer spectroscopy, and character tables.
Instrumental Chemistry Examples
Covers instrumental chemistry techniques like X-ray diffraction and mass spectrometry for analyzing biological compounds.
Ligand-Receptor Interactions: Mechanisms and Quantification
Covers ligand-receptor interactions, their mechanisms, and how to quantify binding affinities in biological systems.
Amino Acids: Structure and Importance
Covers the structures and significance of amino acids, molecular chirality, and the conformation of organic compounds.
