N-Phenylcarbazole (CAS 1150-62-5): A Versatile Intermediate for OLEDs and Pharmaceuticals
Discover the key properties and applications of this vital compound in advanced electronic materials and drug synthesis.
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N-Phenylcarbazole
N-Phenylcarbazole, with CAS number 1150-62-5, is a pivotal white powder intermediate extensively utilized in the development of cutting-edge electronic materials, particularly for OLED (Organic Light-Emitting Diode) displays, and as a crucial building block in pharmaceutical synthesis. Its well-defined physicochemical properties, including a melting point typically ranging from 95-97°C, ensure reliability and efficiency in demanding applications.
- Explore the N-Phenylcarbazole CAS 1150-62-5 for your next-generation electronic device development.
- Utilize N-Phenylcarbazole for OLEDs to enhance display efficiency and color fidelity.
- Source high-purity N-Phenylcarbazole online for critical pharmaceutical intermediate synthesis.
- Understand the detailed N-Phenylcarbazole chemical properties to optimize your research and production processes.
Key Advantages
High Purity and Consistency
Benefit from the consistent quality of our high purity N-Phenylcarbazole, ensuring reliable performance in demanding applications like OLED material synthesis.
Versatile Application Range
Leverage N-Phenylcarbazole as a versatile pharmaceutical intermediate and a key component in various organic electronic materials, driving innovation.
Streamlined Synthesis Processes
The established N-Phenylcarbazole synthesis pathways allow for efficient production, making it an accessible and valuable chemical for industry professionals.
Key Applications
OLED Materials Manufacturing
N-Phenylcarbazole is a crucial component in the creation of advanced OLED materials, contributing to vibrant displays and energy-efficient devices.
Pharmaceutical Synthesis
As a vital pharmaceutical intermediate, N-Phenylcarbazole plays a role in the development of new drugs and therapeutic compounds.
Organic Photoconductor Materials
Its unique electronic properties make it valuable in the synthesis of organic photoconductor materials for various electronic applications.
Specialty Chemical Intermediates
The compound serves as a key intermediate in the synthesis of a wide array of specialty chemicals, underpinning diverse industrial processes.
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