Boronic acids are a class of organoboron compounds that have revolutionized modern chemical synthesis, particularly through their participation in palladium-catalyzed cross-coupling reactions such as the Suzuki-Miyaura coupling. These reactions are fundamental to constructing complex organic molecules used across diverse industries, from pharmaceuticals to advanced materials. Among the extensive library of boronic acids available, Dibenzothienylboronic Acid (CAS 108847-20-7) holds significant importance, especially in the field of organic electronics.

Dibenzothienylboronic Acid, with its fused polycyclic aromatic structure incorporating a thiophene ring, offers unique electronic and structural properties. As a white to light yellow crystalline powder, it is highly valued for its stability and the precise molecular architectures it enables. Its molecular formula is C12H9BO2S, and its molecular weight is approximately 228.07 g/mol. This compound is sought after by researchers and industrial chemists looking to synthesize novel materials with tailored optical and electronic characteristics. If you are aiming to buy high-quality boronic acids for your synthesis projects, Dibenzothienylboronic Acid is a key intermediate to consider.

The primary application driving demand for Dibenzothienylboronic Acid is in the manufacturing of Organic Light-Emitting Diodes (OLEDs). Its structure is incorporated into organic semiconductor materials that form the emissive and transport layers of these devices. The dibenzothiophene moiety can influence charge mobility and energy levels, contributing to the overall efficiency, color purity, and longevity of OLED displays. This makes it a critical raw material for companies developing cutting-edge electronic devices.

When sourcing this compound, buyers often look for reliable suppliers who can provide not only high purity (≥97%) but also consistent quality and competitive price. The availability of Dibenzothienylboronic Acid from manufacturers in China has made it more accessible for global markets. These suppliers typically offer various quantities, from research-scale grams to industrial-scale kilograms, ensuring that projects of all sizes can be supported. It is essential for buyers to verify the COA (Certificate of Analysis) from their chosen supplier to confirm the product's specifications.

Beyond OLEDs, the versatility of Dibenzothienylboronic Acid allows it to be utilized in the synthesis of various other fine chemicals and potentially as intermediates for pharmaceutical research. Its participation in Suzuki couplings means it can be readily combined with aryl halides and other electrophiles, opening pathways to a vast array of complex organic structures. For any scientist or procurement manager involved in advanced chemical synthesis, understanding the role and availability of compounds like Dibenzothienylboronic Acid is crucial for driving innovation.