Fluoranthen-3-amine: A High-Purity Intermediate for Next-Gen OLED Materials
The relentless drive for innovation in electronic displays and lighting solutions has placed Organic Light-Emitting Diodes (OLEDs) at the cutting edge of technological advancement. At the core of this progress are specialized chemical intermediates, and Fluoranthen-3-amine, identified by its CAS number 2693-46-1, is a prime example of such a crucial compound.
Also recognized as 3-Aminofluoranthene, this intermediate is characterized by its molecular formula C16H11N and a molecular weight of 217.265. Its typical presentation as a white powder, with a clearly defined melting point range (115-117°C), attests to its high purity, typically assayed at ≥99.0%. These attributes are indispensable for its use in the sophisticated chemical synthesis of advanced molecules for OLEDs, where precise molecular structures are required to achieve desired optoelectronic properties.
For professionals in the field of organic electronics, the ability to reliably source high-quality materials is paramount. When aiming to buy OLED synthesis materials, Fluoranthen-3-amine stands out as a critical component, enabling researchers and manufacturers to develop cutting-edge materials for emissive layers, charge transport layers, and host materials within OLED devices.
The value proposition of a trusted high purity C16H11N supplier is significant. By providing intermediates that consistently meet stringent purity standards, these suppliers facilitate more efficient research and development processes and enable the scalable manufacturing of advanced electronic components. This ensures that the final OLED products exhibit the expected high performance, reliability, and longevity.
Fluoranthen-3-amine’s versatility as a chemical intermediate makes it a key player in the ongoing development of next-generation OLED materials. Its integration into various synthetic pathways allows for the creation of novel compounds with enhanced efficiency, color purity, and operational stability, pushing the boundaries of what is achievable in electronic displays.
In essence, Fluoranthen-3-amine is more than just a chemical intermediate; it is an essential enabler of innovation in the rapidly evolving landscape of organic electronics and OLED technology. Its precise chemical nature and high purity underscore its critical role in shaping the future of displays and lighting.
Also recognized as 3-Aminofluoranthene, this intermediate is characterized by its molecular formula C16H11N and a molecular weight of 217.265. Its typical presentation as a white powder, with a clearly defined melting point range (115-117°C), attests to its high purity, typically assayed at ≥99.0%. These attributes are indispensable for its use in the sophisticated chemical synthesis of advanced molecules for OLEDs, where precise molecular structures are required to achieve desired optoelectronic properties.
For professionals in the field of organic electronics, the ability to reliably source high-quality materials is paramount. When aiming to buy OLED synthesis materials, Fluoranthen-3-amine stands out as a critical component, enabling researchers and manufacturers to develop cutting-edge materials for emissive layers, charge transport layers, and host materials within OLED devices.
The value proposition of a trusted high purity C16H11N supplier is significant. By providing intermediates that consistently meet stringent purity standards, these suppliers facilitate more efficient research and development processes and enable the scalable manufacturing of advanced electronic components. This ensures that the final OLED products exhibit the expected high performance, reliability, and longevity.
Fluoranthen-3-amine’s versatility as a chemical intermediate makes it a key player in the ongoing development of next-generation OLED materials. Its integration into various synthetic pathways allows for the creation of novel compounds with enhanced efficiency, color purity, and operational stability, pushing the boundaries of what is achievable in electronic displays.
In essence, Fluoranthen-3-amine is more than just a chemical intermediate; it is an essential enabler of innovation in the rapidly evolving landscape of organic electronics and OLED technology. Its precise chemical nature and high purity underscore its critical role in shaping the future of displays and lighting.
Perspectives & Insights
Chem Catalyst Pro
“At the core of this progress are specialized chemical intermediates, and Fluoranthen-3-amine, identified by its CAS number 2693-46-1, is a prime example of such a crucial compound.”
Agile Thinker 7
“Also recognized as 3-Aminofluoranthene, this intermediate is characterized by its molecular formula C16H11N and a molecular weight of 217.”
Logic Spark 24
“Its typical presentation as a white powder, with a clearly defined melting point range (115-117°C), attests to its high purity, typically assayed at ≥99.”