Discover the Potential of 2,4-Diphenylpyridine (CAS 26274-35-1)
Explore the synthesis, properties, and diverse applications of 2,4-Diphenylpyridine, a key compound for organic synthesis and advanced material development.
Get a Quote & SampleProduct Core Value
2,4-Diphenylpyridine
As a reliable supplier in China, we offer high-quality 2,4-Diphenylpyridine (CAS 26274-35-1). This versatile compound serves as a crucial synthesis material and intermediate in various chemical processes. Its unique structure makes it valuable for developing novel materials and in complex organic synthesis pathways.
- Leverage its unique structure for advanced organic synthesis pathways, a key aspect of buy 2,4-Diphenylpyridine online.
- Understand the essential 2,4-Diphenylpyridine properties, critical for successful laboratory research and development.
- Source this critical heterocyclic intermediate from a trusted supplier to ensure project continuity and quality.
- Explore the broad CAS 26274-35-1 applications, from materials science to potential uses in organic electronics.
Key Advantages of 2,4-Diphenylpyridine
High Purity and Stability
Benefit from a minimum purity of 97%, ensuring reliable results in your synthesis projects. This high purity is a significant advantage when you aim to buy 2,4-Diphenylpyridine online for demanding applications.
Versatile Chemical Intermediate
Utilize 2,4-Diphenylpyridine as a key building block in complex organic synthesis. Its stable chemical structure supports a wide range of reactions, making it invaluable for research and industrial applications.
Potential in Advanced Materials
Discover the potential of 2,4-Diphenylpyridine in materials science and organic electronics due to its unique electronic properties and chemical characteristics.
Key Applications
Organic Synthesis
As a key component in organic synthesis, 2,4-Diphenylpyridine is used to create more complex molecules, essential for researchers looking for heterocyclic intermediates supplier.
Materials Science
The unique electronic properties of 2,4-Diphenylpyridine make it a promising candidate for development in advanced materials, supporting innovation in the field.
Organic Electronics
Explore the potential of this compound in organic electronic devices, furthering research and development in this cutting-edge area.
Chemical Research
Its well-defined properties and reactivity make it a valuable tool for chemical research, aiding in the understanding and advancement of chemical processes.