In the complex landscape of electronic materials, specific chemical compounds serve as the foundational elements for innovation. CAS 230295-09-7, chemically identified as 2,3,6-trifluorophenyl methanamine, stands out as a crucial intermediate in the synthesis of advanced electronic chemicals, particularly those destined for cutting-edge applications like Organic Light-Emitting Diodes (OLEDs).

The precise chemical structure, C7H6F3N, and molecular weight of 161.12 are critical for its function. This compound's significance lies in its fluorinated nature, which can impart unique electronic and physical properties to the final materials it helps create. The high purity of 99% ensures that it meets the stringent demands of the electronics industry, where even minute impurities can affect device performance and longevity.

As a key player in the electronic chemicals sector, 2,3,6-trifluorophenyl methanamine enables breakthroughs in areas such as display technology. Its application is not limited to OLEDs; it can be a vital component in the synthesis of various other advanced electronic materials. The ability to buy 2,3,6-trifluorophenyl methanamine from reputable suppliers is crucial for R&D departments and manufacturing facilities aiming for consistency and quality.

The global supply chain for such specialized chemicals often involves sourcing from established manufacturers. For instance, securing a reliable supply of 2,3,6-trifluorophenyl methanamine manufacturers China can be a strategic move for companies looking to optimize their production costs without compromising on quality. This compound's classification as an OLED Chemical further emphasizes its targeted use in high-technology applications.

Understanding the CAS number 230295-09-7 is more than just identifying a chemical; it's about recognizing a critical building block that drives technological advancement. As the electronics industry continues to innovate, the demand for high-purity, specialized intermediates like 2,3,6-trifluorophenyl methanamine will only grow, cementing its importance in the field of material science.