High-Purity 9H-Carbazole, 9-(4-pyridinyl)
Unlock advanced material possibilities with this key organic intermediate for cutting-edge research and development.
Get a Quote & SampleProduct Core Value
9H-Carbazole, 9-(4-pyridinyl)
This high-purity organic compound serves as a crucial building block in the synthesis of advanced materials, particularly within the fields of organic electronics and specialized chemical research. Its unique molecular structure, featuring both carbazole and pyridine functionalities, makes it valuable for developing novel compounds with specific electronic and optical properties.
- Leverage advanced organic chemistry intermediates like 9H-Carbazole, 9-(4-pyridinyl) to accelerate your research.
- Explore the synthesis of pyridine derivatives to create novel functional materials.
- Investigate carbazole compounds applications for next-generation electronic devices.
- Utilize this heterocyclic compound for high-purity research chemical needs.
Key Advantages
Exceptional Purity
With a guaranteed purity of 97% Min., this compound ensures reliable and reproducible results in your sensitive synthesis processes, crucial for demanding applications.
Versatile Chemical Structure
The combination of carbazole and pyridine rings in this molecule provides a versatile platform for functionalization, enabling the creation of complex structures for various scientific inquiries.
Global Availability & Support
Benefit from worldwide delivery options and responsive customer support, ensuring timely access to this essential research chemical to maintain project momentum.
Key Applications
Organic Electronics
This compound is instrumental in the development of organic light-emitting diodes (OLEDs) and other organic electronic devices, offering tailored electronic and photophysical properties.
Pharmaceutical Research
As a heterocyclic compound, it serves as a valuable intermediate in the synthesis of potential pharmaceutical agents, aiding drug discovery efforts.
Material Science Innovation
Researchers in material science can explore its unique properties for creating novel polymers, sensors, and functional materials with enhanced performance characteristics.
Advanced Organic Synthesis
Its specific structure makes it a sought-after reagent for complex organic synthesis pathways, contributing to the creation of sophisticated chemical entities.