Sourcing 3-Aminofluoranthene (CAS 2693-46-1): A Critical Intermediate for OLED Applications
The rapid advancements in display and lighting technologies are largely driven by innovations in organic electronics, with Organic Light-Emitting Diodes (OLEDs) leading the charge. The development of effective OLED materials is intrinsically linked to the availability of high-quality chemical intermediates, such as 3-Aminofluoranthene, also known by its CAS number 2693-46-1.
This compound, with the chemical name Fluoranthen-3-amine, is a fundamental building block in the complex synthesis of molecules used in OLED devices. Its molecular structure (C16H11N) and molecular weight (217.265) are key determinants of its functional properties in electronic applications. Characterized by its white powder appearance and a melting point of 115-117°C, it signifies a high degree of purity, often specified as ≥99.0%. This purity is non-negotiable for achieving optimal performance in sensitive organic electronic applications.
For researchers and manufacturers looking to buy OLED synthesis materials, sourcing reliable intermediates is a critical first step. 3-Aminofluoranthene is frequently utilized in the chemical synthesis of advanced molecules for OLEDs due to its reactive amine group, which allows for versatile chemical functionalization. This capability enables the creation of bespoke materials tailored for specific roles within the OLED structure, such as charge transport or light emission.
The strategic importance of partnering with a reputable Fluoranthen-3-amine OLED intermediate supplier cannot be overstated. Such suppliers ensure that the intermediates meet rigorous quality standards, which is essential for the scalability and reproducibility of manufacturing processes. This reliability is what drives progress in the dynamic field of organic electronics.
As the demand for higher performance, longer lifespan, and more energy-efficient OLED devices continues to grow, the role of key intermediates like 3-Aminofluoranthene becomes even more pronounced. Its contribution to the development of next-generation electronic materials solidifies its position as an indispensable component in the chemical industry supporting advanced technologies.
In conclusion, 3-Aminofluoranthene is a vital intermediate whose quality and chemical characteristics are paramount for the successful development and production of OLED materials and other organic electronic applications. Its availability from trusted sources ensures the continued innovation in this exciting technological frontier.
This compound, with the chemical name Fluoranthen-3-amine, is a fundamental building block in the complex synthesis of molecules used in OLED devices. Its molecular structure (C16H11N) and molecular weight (217.265) are key determinants of its functional properties in electronic applications. Characterized by its white powder appearance and a melting point of 115-117°C, it signifies a high degree of purity, often specified as ≥99.0%. This purity is non-negotiable for achieving optimal performance in sensitive organic electronic applications.
For researchers and manufacturers looking to buy OLED synthesis materials, sourcing reliable intermediates is a critical first step. 3-Aminofluoranthene is frequently utilized in the chemical synthesis of advanced molecules for OLEDs due to its reactive amine group, which allows for versatile chemical functionalization. This capability enables the creation of bespoke materials tailored for specific roles within the OLED structure, such as charge transport or light emission.
The strategic importance of partnering with a reputable Fluoranthen-3-amine OLED intermediate supplier cannot be overstated. Such suppliers ensure that the intermediates meet rigorous quality standards, which is essential for the scalability and reproducibility of manufacturing processes. This reliability is what drives progress in the dynamic field of organic electronics.
As the demand for higher performance, longer lifespan, and more energy-efficient OLED devices continues to grow, the role of key intermediates like 3-Aminofluoranthene becomes even more pronounced. Its contribution to the development of next-generation electronic materials solidifies its position as an indispensable component in the chemical industry supporting advanced technologies.
In conclusion, 3-Aminofluoranthene is a vital intermediate whose quality and chemical characteristics are paramount for the successful development and production of OLED materials and other organic electronic applications. Its availability from trusted sources ensures the continued innovation in this exciting technological frontier.
Perspectives & Insights
Bio Analyst 88
“The development of effective OLED materials is intrinsically linked to the availability of high-quality chemical intermediates, such as 3-Aminofluoranthene, also known by its CAS number 2693-46-1.”
Nano Seeker Pro
“This compound, with the chemical name Fluoranthen-3-amine, is a fundamental building block in the complex synthesis of molecules used in OLED devices.”
Data Reader 7
“265) are key determinants of its functional properties in electronic applications.”