Fluoranthen-3-amine (CAS 2693-46-1): Your Key to Advanced OLED Material Development
The pursuit of brighter, more energy-efficient, and flexible displays has positioned Organic Light-Emitting Diodes (OLEDs) at the forefront of modern display technology. Essential to this advancement is the development of sophisticated OLED materials, which in turn rely on high-quality intermediates. Fluoranthen-3-amine, bearing the CAS number 2693-46-1, stands out as a critical component in this intricate supply chain.
This compound, chemically known as 3-Aminofluoranthene, is recognized for its consistent quality and specific properties, making it a preferred choice for researchers and manufacturers in the field of organic electronics. Typically supplied as a white powder, its molecular formula is C16H11N, with a molecular weight of 217.27 g/mol. The specified purity of ≥99.0% ensures that it meets the demanding standards required for advanced material synthesis.
When scientists and engineers look to buy OLED synthesis materials, they are often seeking intermediates that offer reliability and performance. Fluoranthen-3-amine fulfills this need, serving as a foundational element for creating specialized OLED compounds. Its physical properties, such as a melting point range of 115-117°C, provide crucial parameters for process control during synthesis.
The importance of sourcing from a dependable Fluoranthen-3-amine OLED intermediate supplier cannot be overstated. Companies that specialize in providing these high-purity chemicals are instrumental in accelerating research and development cycles. By ensuring a consistent supply of quality intermediates like 3-Aminofluoranthene, they empower innovation in display technology.
The versatility of Fluoranthen-3-amine in chemical synthesis of advanced molecules for OLEDs allows for its integration into various synthetic routes. This adaptability makes it an invaluable asset for creating a new generation of OLED materials with enhanced characteristics, such as improved charge transport capabilities and luminescent properties. As the OLED market continues to expand, the demand for such specialized chemical building blocks will only grow.
In essence, Fluoranthen-3-amine is a cornerstone chemical that facilitates progress in the OLED industry. Its precise specifications and broad applicability make it a key enabler for developing the next wave of advanced electronic displays and lighting solutions.
This compound, chemically known as 3-Aminofluoranthene, is recognized for its consistent quality and specific properties, making it a preferred choice for researchers and manufacturers in the field of organic electronics. Typically supplied as a white powder, its molecular formula is C16H11N, with a molecular weight of 217.27 g/mol. The specified purity of ≥99.0% ensures that it meets the demanding standards required for advanced material synthesis.
When scientists and engineers look to buy OLED synthesis materials, they are often seeking intermediates that offer reliability and performance. Fluoranthen-3-amine fulfills this need, serving as a foundational element for creating specialized OLED compounds. Its physical properties, such as a melting point range of 115-117°C, provide crucial parameters for process control during synthesis.
The importance of sourcing from a dependable Fluoranthen-3-amine OLED intermediate supplier cannot be overstated. Companies that specialize in providing these high-purity chemicals are instrumental in accelerating research and development cycles. By ensuring a consistent supply of quality intermediates like 3-Aminofluoranthene, they empower innovation in display technology.
The versatility of Fluoranthen-3-amine in chemical synthesis of advanced molecules for OLEDs allows for its integration into various synthetic routes. This adaptability makes it an invaluable asset for creating a new generation of OLED materials with enhanced characteristics, such as improved charge transport capabilities and luminescent properties. As the OLED market continues to expand, the demand for such specialized chemical building blocks will only grow.
In essence, Fluoranthen-3-amine is a cornerstone chemical that facilitates progress in the OLED industry. Its precise specifications and broad applicability make it a key enabler for developing the next wave of advanced electronic displays and lighting solutions.
Perspectives & Insights
Quantum Pioneer 24
“The pursuit of brighter, more energy-efficient, and flexible displays has positioned Organic Light-Emitting Diodes (OLEDs) at the forefront of modern display technology.”
Bio Explorer X
“Essential to this advancement is the development of sophisticated OLED materials, which in turn rely on high-quality intermediates.”
Nano Catalyst AI
“Fluoranthen-3-amine, bearing the CAS number 2693-46-1, stands out as a critical component in this intricate supply chain.”