Join Here! Already have an account? Log in. Which of the following complexes can exist as enantiomers? Draw their structures. So they are achiral.
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If isome… Which complexes exhibit geometric isomerism? Which of the following compounds can exist as cis-trans isomers? For each th… Draw the structures of all possible diastereoisomers of an octahedral comple… For any of the following that can exist as isomers, state the type of isomer… Which of the following compounds can exist as pairs of cis-trans isomers?
Enantiomers are another kind of isomer that occur in octahedral metal complexes. Like the square planar platinum complexes seen before, these compounds consist of metal ions with other atoms or groups bound to them.
More information about the binding of ligands to metals is found in the section on Lewis acids and bases. These groups that bind to metal ions are called ligands. One example of a type of octahedral compounds that can form enantiomers is bidentate complexes. In bidentate complexes from the Greek two teeth or chelating complexes from the Greek crab , a ligand binds very tightly to the metal because it holds onto the metal via more than one atom.
Ethylenediamine is one example of a bidentate ligand. Bidentate ligands bind very tightly to a metal because they form two bonds with it, rather than just one. In an octahedral complex, the two donor atoms in a bidentate ligand bind cis to each other. They cannot reach all the way around the molecule to bind trans to each other.
The spatial relationship between the metal and the two atoms connected to it from the same ligand forms a plane. If more than one bidentate ligand is connected to the metal, the relative orientation of one plane to another creates the possibility of mirror images.
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