The world of organic synthesis is built upon a foundation of versatile chemical building blocks that enable the construction of complex molecular architectures. 4-Aminobenzeneboronic Acid Hydrochloride, identified by CAS number 80460-73-7, is a prime example of such a fundamental component, particularly valued in pharmaceutical research and the broader fine chemical industry. Its utility stems from the reactive boronic acid moiety coupled with an amino group, making it a bifunctional reagent capable of participating in a wide range of chemical transformations. This compound, typically supplied as a high-purity white powder, serves as an indispensable intermediate in various synthetic strategies. The boronic acid group readily participates in Suzuki-Miyaura cross-coupling reactions, a cornerstone of modern organic synthesis for forming carbon-carbon bonds. This capability allows chemists to efficiently link aromatic rings and construct intricate molecular frameworks, essential for creating novel drug molecules and advanced materials. As a manufacturer in China, NINGBO INNO PHARMCHEM CO.,LTD. is committed to providing researchers and industries with consistent access to high-quality 4-Aminobenzeneboronic Acid Hydrochloride. Our focus on rigorous quality control and manufacturing excellence ensures that the product meets the demanding purity requirements (99% min) necessary for reliable synthetic outcomes. This dedication to quality is a testament to our understanding of the critical role these intermediates play in the success of R&D programs. The strategic sourcing of such versatile building blocks is crucial for driving innovation in chemical synthesis and developing new products. Whether it's for synthesizing pharmaceutical intermediates, developing new organic chemistry methodologies, or exploring novel materials, 4-Aminobenzeneboronic Acid Hydrochloride offers a reliable and effective starting point. Our commitment extends to supporting these endeavors by ensuring the availability and quality of this essential chemical.