For professionals in the chemical and materials science industries, understanding product specifications is fundamental to making informed purchasing decisions. 4-Bromotetraphenylsilane (CAS: 18737-40-1) is a prime example of a fine chemical intermediate whose precise specifications directly correlate with its utility and performance in advanced applications, particularly in the field of OLEDs.

As a leading manufacturer and supplier, NINGBO INNO PHARMCHEM CO.,LTD. places immense importance on the detailed specifications of our products. 4-Bromotetraphenylsilane is presented as a 'White Powder.' This appearance is a primary indicator of its physical state and purity, distinguishing it from liquid or crystalline forms and suggesting its ease of handling in solid-state formulations. The high melting point of 175°C further supports its stability.

Crucially, our 4-Bromotetraphenylsilane boasts an assay of '≥99.0%'. This high purity is not merely a number; it represents the absence of significant impurities that could compromise downstream reactions or the performance of the final product. For buyers seeking this OLED material intermediate, ensuring this high purity is essential for achieving consistent results in their synthesis and device fabrication processes. A supplier’s ability to consistently meet this ≥99.0% assay is a hallmark of quality manufacturing.

The molecular formula C24H19BrSi and molecular weight of 415.39700 also provide chemists with vital data for stoichiometric calculations and reaction planning. When purchasing 4-Bromotetraphenylsilane, especially from international suppliers like those in China, rigorous verification of these specifications is key. NINGBO INNO PHARMCHEM CO.,LTD. provides detailed product information and reliable quality to meet these needs.

For procurement managers and research scientists aiming to buy 4-Bromotetraphenylsilane, understanding the significance of each specification—from appearance to assay—is critical. It ensures that the purchased material aligns perfectly with the technical requirements of their projects, contributing to the success and efficiency of their endeavors in organic synthesis and advanced materials development.