2-Amino-3,5-dibromopyrazine: Your Key OLED Material Intermediate
Unlock advanced material potential with high-purity 2-Amino-3,5-dibromopyrazine, a crucial component for OLED innovation.
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2-Amino-3,5-dibromopyrazine
This high-purity compound serves as a critical building block for next-generation electronic and pharmaceutical applications. Its unique chemical structure makes it indispensable for synthesizing advanced organic materials.
- Leverage 2-Amino-3,5-dibromopyrazine CAS 24241-18-7 purity for reliable and high-performance OLED material development.
- Explore the synthesis of 2-amino-3,5-dibromopyrazine to understand its production pathways and quality control.
- Discover the diverse applications of 2-amino-3,5-dibromopyrazine in OLEDs, enhancing efficiency and device longevity.
- Utilize this versatile organic intermediate for material science, enabling innovation across various industries.
Product Advantages
Uncompromised Purity
Benefit from an exceptional purity level, often exceeding 99%, ensuring consistent results in sensitive chemical synthesis, crucial for demanding pharmaceutical intermediate applications.
Versatile Chemical Building Block
As a key organic intermediate for material science, its dibromo substitution allows for a wide range of derivatization, supporting the development of novel functional polymers and complex organic molecules.
Enabling Advanced Technologies
Its role in the synthesis of 2-amino-3,5-dibromopyrazine and subsequent use in OLEDs significantly contributes to advancements in display technology and lighting solutions.
Key Applications
OLED Materials
This compound is vital for developing high-performance Organic Light-Emitting Diodes (OLEDs), contributing to improved luminescence and device stability through its specific electronic properties.
Photosensitive Materials
Its incorporation into photosensitive polymers enables applications in photolithography and optical sensing, where materials react to light for various technological uses.
Pharmaceutical Intermediates
The molecule serves as a crucial intermediate in the synthesis of various pharmaceutical compounds, including kinase inhibitors, highlighting its importance in drug discovery and development.
Advanced Organic Synthesis
As a highly functionalized pyrazine derivative, it is an excellent starting material for complex organic synthesis projects, enabling the creation of novel chemical structures.