16: Chirality

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Stereoisomers are isomers that differ in the spatial arrangement of atoms, rather than the order of atomic connectivity. One of the most interesting types of isomer is mirror-image stereoisomers, a non-superimposable set of two molecules that are mirror images of one another. The existence of these molecules is determined by concept known as chirality. The word "chiral" was derived from the Greek word for hand, because our hands are good example of chirality since they are non-superimposable mirror images of each other.

16.1: Absolute Configuration - R-S Sequence Rules
To name the enantiomers of a compound unambiguously, their names must include the "handedness" of the molecule. The method for this is formally known as R/S nomenclature.
16.2: Chirality and Stereoisomers
16.3: Diastereomers
16.4: Fischer Projections
The Fischer Projections allow us to represent 3D molecular structures in a 2D environment without changing their properties and/or structural integrity.
16.5: Fundamentals of Chirality
16.6: Meso Compounds
16.7: Mixtures of Stereoisomers
16.8: Optical Activity
16.9: Stereoisomers

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