The rapid advancement of display and lighting technologies owes much to the development of novel organic electronic materials. Among these, Organic Light-Emitting Diodes (OLEDs) have revolutionized how we experience visual interfaces. At the heart of this revolution are specialized chemical compounds like 2-Butyl-octylamine (CAS 217655-07-7), a vital organic intermediate that empowers the creation of high-performance OLED components. For R&D scientists and product formulators, understanding the sourcing and application of this compound is essential.

What is 2-Butyl-octylamine?

2-Butyl-octylamine is a primary amine with the chemical formula C12H27N and a molecular weight of 185.36 g/mol. It is characterized by its specific molecular structure, which makes it a valuable building block in organic synthesis. While its appearance is typically noted as 'Asked' or not explicitly defined in product listings, its functionality as an intermediate is its primary asset. It is often supplied with a purity of 97% or higher, a critical factor for its use in sensitive electronic applications.

The Role in OLED Technology

In OLED technology, molecules need to efficiently transport charges (both electrons and holes) and emit light when these charges recombine. 2-Butyl-octylamine serves as a precursor or a component in the synthesis of organic molecules that form the emissive layers, charge transport layers, and host materials within an OLED device. Its amine functional group allows for further chemical modifications, enabling the creation of tailored molecules with specific electronic and optical properties. This makes it a sought-after intermediate for manufacturers developing next-generation OLED displays and lighting solutions.

Why Choose 2-Butyl-octylamine?

The choice of intermediates directly impacts the final performance of an OLED device. 2-Butyl-octylamine offers several advantages:

  • Versatile Reactivity: The amine group provides a reactive site for creating complex molecular architectures.
  • Structural Contribution: Its alkyl chains can influence solubility, film-forming properties, and molecular packing in the solid state.
  • Purity for Performance: High purity levels minimize quenching effects and parasitic reactions, leading to brighter and more stable emissions.

Professionals looking to buy this compound will find that partnering with a reliable manufacturer or supplier is key. Understanding the CAS number 217655-07-7 ensures you are sourcing the correct material.

Sourcing Strategies for R&D and Production

For those requiring 2-Butyl-octylamine for their research or manufacturing processes, sourcing from reputable suppliers is crucial. Chinese chemical manufacturers have become leading providers of high-quality organic intermediates. When searching for a '2-Butyl-octylamine supplier' or 'OLED material intermediate price', consider companies that can demonstrate consistent quality, competitive pricing, and a strong understanding of the electronic materials market. Engaging with manufacturers directly can often yield the best terms and ensure a secure supply chain.

Whether you are developing a new generation of smartphone displays or energy-efficient lighting, the quality of your chemical intermediates, such as 2-Butyl-octylamine, plays an indispensable role. By partnering with trusted manufacturers and understanding the critical applications of this compound, you can accelerate your innovation in the exciting field of OLED technology.