4,4'-Trimethylenedipyridine CAS 17252-51-6: Synthesis Reagent and Ligand Applications
Explore the multifaceted applications of 4,4'-Trimethylenedipyridine, a crucial compound for advanced synthesis and material development. Discover its role in coordination chemistry and beyond.
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4,4'-Trimethylenedipyridine
As a reliable supplier in China, we offer 4,4'-Trimethylenedipyridine (CAS 17252-51-6), a vital synthesis material intermediate. This compound is instrumental in various advanced chemical processes, contributing to innovations in material science and chemical research.
- Leverage our high-purity 4,4'-Trimethylenedipyridine for your synthesis material intermediate needs.
- Explore the potential of CAS 17252-51-6 as a versatile ligand in coordination chemistry.
- Utilize this compound for developing novel photoelectric functional materials.
- Incorporate 4,4'-Trimethylenedipyridine in the construction of metal-organic frameworks (MOFs).
Advantages Offered
Exceptional Purity
Our 4,4'-Trimethylenedipyridine consistently meets high purity standards, ensuring reliable results for your sensitive applications.
Versatile Functionality
As a key synthesis reagent, it enables the creation of complex molecules and advanced materials, supporting diverse research goals.
Extensive Application Scope
From coordination chemistry to material science, 4,4'-Trimethylenedipyridine provides a broad range of utility for innovative projects.
Key Applications
Synthesis Material Intermediates
This compound serves as a critical building block for various organic synthesis pathways, facilitating the production of complex chemical structures.
Coordination Chemistry
Its structure makes it an excellent ligand for transition metals, enabling the study and development of novel coordination complexes.
Photoelectric Functional Materials
Used in advanced applications such as OLEDs and solar cells, contributing to the development of next-generation electronic devices.
Metal-Organic Frameworks (MOFs)
The bridging ability of 4,4'-Trimethylenedipyridine is key in constructing porous MOFs for applications in gas storage and catalysis.