Chemistry Heterocyclic Building Blocks Pyridines 3,3'-bipyridine
Ambeed provide 7 derivatives of 3,3'-bipyridine.
These compounds have the same murcko framework: 3,3'-bipyridine.
Coordination Chemistry: 3,3'-bipyridine can act as a ligand and coordinate with various metal ions to form coordination complexes. The resulting complexes can have different geometries and properties depending on the metal ion and the coordination environment.
Metalation: 3,3'-bipyridine can undergo metalation reactions where one or more hydrogen atoms on the nitrogen atoms are replaced by metal ions. This process is often used to prepare metal-containing complexes of 3,3'-bipyridine.
Substitution Reactions: The pyridine rings in 3,3'-bipyridine can undergo substitution reactions, such as electrophilic aromatic substitution. For example, the nitrogen atoms in the pyridine rings can be alkylated or acylated under appropriate reaction conditions.
Complexation with Other Ligands: 3,3'-bipyridine can also form complexes with other ligands, leading to the formation of mixed-ligand complexes. These complexes can have unique properties and reactivity.
Catalysis: 3,3'-bipyridine and its metal complexes are often used as catalysts in various organic reactions, including oxidation, hydrogenation, and cross-coupling reactions.
Supramolecular Chemistry: 3,3'-bipyridine can participate in supramolecular chemistry, where it can form various non-covalent interactions with other molecules, such as hydrogen bonding and π-π stacking.
Crystallization: 3,3'-bipyridine can be used to crystallize compounds and is often employed in crystallography as a co-crystallization agent.
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6-Fluoro-5-(pyridin-3-yl)nicotinic acid
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6'-Fluoro-[3,3'-bipyridine]-6-carboxylic acid