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2,2':6',2''-Terpyridine CAS 1148-79-4 - Key Ligand for Coordination Chemistry and Functional Materials - Nagpur
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Dattawadi, Nagpur
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| Posted By: | uchemsales |
| Phone: | N/A |
| Posted On: | 13-March-2026 14:09 PM |
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Description
2,2':6',2''-Terpyridine (CAS 1148-79-4) is a well-known heterocyclic compound widely used as a tridentate ligand in coordination chemistry, catalysis, and materials science. Its unique structure consists of three pyridine rings connected in a linear arrangement, enabling strong coordination with a variety of metal ions. Due to its excellent chelating ability and electronic properties, terpyridine has become an important building block in modern chemical research and advanced functional materials.
Applications
Coordination Chemistry
2,2':6',2''-Terpyridine is widely used as a tridentate ligand for preparing transition metal complexes. These complexes are studied for their structural properties, redox behavior, and catalytic activity.
Catalysis
Metal–terpyridine complexes are used in various catalytic reactions, including oxidation, reduction, and cross-coupling reactions. The strong metal–ligand interaction provides good stability and selectivity in catalytic systems.
Materials Science
Terpyridine derivatives are important components in the development of functional materials such as molecular electronics, supramolecular assemblies, and coordination polymers. They are also used in dye-sensitized solar cells, luminescent materials, and electrochemical devices.
Supramolecular Chemistry
Because of its predictable coordination geometry, terpyridine is widely used to construct supramolecular architectures and metal–organic frameworks (MOFs). These materials are studied for applications in sensing, energy storage, and nanotechnology.
Research Value
The versatility of 2,2':6',2''-terpyridine makes it a key ligand for designing new metal complexes with tailored electronic and structural properties. Its use in catalysis, photochemistry, and advanced materials research continues to grow as scientists explore new applications in sustainable chemistry and functional materials.
