The efficacy of many modern chemical products, particularly pharmaceuticals and advanced materials, hinges on the precise control of molecular chirality. (R)-(+)-1,1'-Bi-2-naphthol, identified by CAS number 18531-94-7 and commonly known as (R)-BINOL, is a cornerstone chiral scaffold that empowers chemists to achieve this precision. As a dedicated manufacturer and supplier, we are committed to providing the high-quality (R)-BINOL that drives innovation across numerous scientific disciplines.

(R)-BINOL, typically appearing as a white to pale yellow crystalline powder, is celebrated for its rigid, axially chiral structure and high enantiomeric purity, often exceeding 99%. This structural integrity is fundamental to its role as a precursor for highly selective chiral catalysts and ligands. Its utility spans a broad range of applications, making it an indispensable reagent for chemists worldwide.

One of the most significant application areas for (R)-BINOL is in asymmetric catalysis. It serves as a crucial building block for designing chiral Lewis acids and transition metal complexes. For instance, BINOL-derived catalysts are widely employed in enantioselective reactions such as Diels-Alder reactions, Michael additions, aldol reactions, and various C-C bond forming processes. These catalytic systems are vital for the stereoselective synthesis of drug intermediates and APIs, ensuring the production of enantiomerically pure therapeutic agents. Pharmaceutical companies often look to buy (R)-BINOL from reliable suppliers to ensure the consistency and efficacy of their synthesis processes.

Beyond catalysis, (R)-BINOL finds applications in organic synthesis as a chiral auxiliary and reagent. Its derivatives can be used to control stereochemistry in reactions where direct catalysis is not feasible. Furthermore, the molecule's unique optical and structural properties make it valuable in material science. Modified BINOL structures are explored for their use in chiral liquid crystals, nonlinear optical materials, and as components in chiroptical sensors. The development of chiral stationary phases for chromatography also benefits from BINOL derivatives, aiding in the analytical separation of enantiomers.

As a leading supplier in China, we ensure that our (R)-BINOL is manufactured to the highest standards, providing the purity and reliability that researchers and industrial chemists demand. Whether you need small quantities for R&D or bulk supplies for large-scale production, we are equipped to meet your requirements. We invite you to contact us to learn more about our (R)-BINOL (CAS 18531-94-7) and to receive a competitive quote. Procuring this essential chiral compound from a trusted manufacturer ensures the quality and success of your chemical synthesis endeavors.