2-Methyl-6-phenylpyridine: Your Key Intermediate for OLEDs and Pharmaceuticals
Discover the high-purity building block essential for next-generation electronic materials and life-saving drugs.
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2-Methyl-6-phenylpyridine
2-Methyl-6-phenylpyridine is a vital chemical compound recognized for its critical role as both an OLED material and a pharmaceutical raw intermediate. Its specific molecular structure and properties make it an indispensable component in the synthesis of advanced materials and complex drug molecules, contributing to innovations in electronic displays and healthcare.
- High Purity for Advanced Applications: Offering a minimum purity of 97%, this compound ensures reliability and performance in demanding OLED material synthesis and pharmaceutical production, supporting high purity pyridine derivatives research.
- Essential for OLED Technology: As a key component in OLED material synthesis, it contributes to the development of more efficient and vibrant display technologies, crucial for the chemical reagent OLED intermediate market.
- Crucial Pharmaceutical Intermediate: Its application as a pharmaceutical raw intermediate underscores its importance in the drug discovery and development pipeline, aiding in the creation of novel therapeutics.
- Reliable Chemical Structure: With a molecular formula of C12H11N and a molecular weight of 169.22, this pyridine derivative is a well-characterized building block for complex organic synthesis, sought after by those looking to buy 2-methyl-6-phenylpyridine.
Advantages You Gain
Enhanced Material Performance
Leverage the specific properties of 2-Methyl-6-phenylpyridine to improve the efficiency and longevity of OLED devices, a key benefit in the field of OLED material synthesis.
Streamlined Synthesis Pathways
Utilize this precisely manufactured intermediate to simplify your 2-methyl-6-phenylpyridine synthesis and drug development processes, ensuring consistent results.
Consistent Quality Assurance
Rely on the guaranteed 97% minimum purity to maintain the integrity of your final products, whether for electronic applications or pharmaceutical formulations, making it a prime chemical reagent OLED intermediate.
Key Applications
OLED Materials
This pyridine derivative is instrumental in creating advanced organic light-emitting diodes, contributing to brighter and more energy-efficient displays. It's a sought-after component for those researching OLED material synthesis.
Pharmaceutical Intermediates
Its utility as a building block in the pharmaceutical industry aids in the development of new drugs and therapies, supporting vital pharmaceutical raw intermediates supply chains.
Organic Synthesis
As a versatile heterocyclic compound, it serves as a crucial starting material or intermediate in various complex organic synthesis reactions, prized by researchers in the field.
Chemical Research
Its availability and specific characteristics make it valuable for academic and industrial research, particularly for exploring high purity pyridine derivatives and their applications.