In the realm of advanced organic chemistry and pharmaceutical development, understanding the properties and applications of key intermediates is crucial for innovation. 9-Anthraceneboronic Acid (CAS 100622-34-2) is one such compound that offers significant versatility. Its unique chemical structure makes it a valuable reagent for synthesizing complex molecules, finding use in areas ranging from drug discovery to materials science. As a dedicated supplier, we aim to provide insights into this important chemical and guide researchers and procurement specialists on how to best leverage its potential.

Chemical Structure and Physical Properties

9-Anthraceneboronic Acid is characterized by its fused aromatic ring system, the anthracene moiety, attached to a boronic acid functional group (-B(OH)2). The molecular formula is C14H11BO2, and its molecular weight is approximately 222.05 g/mol. Typically, this compound presents as a white to slightly yellow crystalline powder. This physical form is advantageous for laboratory handling and precise weighing during synthesis. The purity is a critical parameter, with most applications requiring purity levels of 97% or higher, verifiable through techniques like Nuclear Magnetic Resonance (NMR) spectroscopy.

The anthracene core imparts specific electronic and photophysical properties, while the boronic acid group is a highly reactive and versatile functional group in organic synthesis. Its ability to undergo Suzuki-Miyaura cross-coupling reactions with aryl or vinyl halides is one of its most significant attributes. This reaction is a cornerstone in building complex organic structures, a fundamental step in creating many pharmaceutical compounds and advanced materials.

Key Applications in Research and Industry

The utility of 9-Anthraceneboronic Acid extends across several scientific and industrial domains:

  • Pharmaceutical Synthesis: This is perhaps its most prominent application. The compound acts as a crucial building block for synthesizing novel drug candidates. By utilizing Suzuki coupling, researchers can attach various chemical moieties to the anthracene structure, creating diverse molecular libraries that are screened for biological activity. This makes it an indispensable tool in drug discovery and development. When planning to buy 9-Anthraceneboronic Acid for pharmaceutical applications, prioritizing high purity from a reliable supplier is paramount.
  • Organic Electronics and Materials Science: The anthracene unit is known for its fluorescent properties and ability to form stable π-conjugated systems. Derivatives of 9-Anthraceneboronic Acid can be incorporated into organic light-emitting diodes (OLEDs), organic field-effect transistors (OFETs), and other advanced electronic materials. Its boronic acid functionality allows for controlled polymerization and surface functionalization.
  • Catalysis and Reagent Development: Boronic acids, in general, are explored for their catalytic activities and as reagents in various organic transformations. 9-Anthraceneboronic Acid, with its specific steric and electronic profile, can be a subject of research for developing new catalytic systems or specialized reagents.
  • Analytical Chemistry: In some analytical applications, boronic acids can be used for the detection or derivatization of specific analytes, particularly those containing diol functionalities.

When considering the purchase of 9-Anthraceneboronic Acid (CAS 100622-34-2), it is vital to source from reputable manufacturers and suppliers who guarantee the product's quality and provide comprehensive technical data. Direct sourcing from producers in regions like China often ensures competitive pricing and a stable supply for your research or production needs.

In summary, 9-Anthraceneboronic Acid is a highly versatile and valuable compound whose properties enable significant advancements in pharmaceutical synthesis, materials science, and organic chemistry. Its continued use in research and industry underscores its importance as a key chemical intermediate.