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Planar chirality
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Stereochemistry
Related lectures (31)
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Amino Acids: Structure, Chirality, and Isomerism
Explores amino acids, chirality, optical rotation, and isomerism, emphasizing the importance of structure and configuration in biological molecules.
Chirality and Asymmetric Synthesis
Explores the importance of chirality, methods for generating enantiopure compounds, and the synthesis of enantio-enriched compounds.
Catalytic Asymmetric Reactions in Organic Chemistry
Explores catalytic asymmetric reactions, covering chirality creation, asymmetric induction modes, and key quality parameters in reactions.
Identifying Drug Targets: Safety and Efficacy
Delves into identifying drug targets, ensuring efficacy, and maintaining safety in medical chemistry, covering genetic tests, chirality, stereochemistry, drug resistance, and drug-likeness rules.
Advanced Organic Chemistry II
Covers advanced topics in organic chemistry, focusing on stereochemistry and reaction mechanisms.
Catalytic Asymmetric Reactions in Organic Chemistry
Explores principles for catalysis in organic chemistry, focusing on asymmetric induction and key parameters for efficient reactions.
Chirality in Space Orientation
Explores chirality in space orientation, right hand rule, vectors properties, kinematics, and accelerations in physics.
Optical Activity: Polarization Rotation & Chirality
Explores optical activity, polarization rotation, chiral molecules, liquid crystals, and optical isolators.
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.
Organic Chemistry: Isomers and Stereoisomers
Explores isomers, different compounds, and stereoisomers, emphasizing the nomenclature and stereochemistry of organic molecules.
