1-Naphthylboronic Acid: A Crucial Pharmaceutical Intermediate
Unlock advanced organic synthesis with this versatile building block.
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1-Naphthylboronic Acid
1-Naphthylboronic Acid (CAS 13922-41-3) is a pivotal compound in modern organic chemistry, widely recognized for its role as a key pharmaceutical intermediate. Its chemical structure and reactivity make it indispensable in various synthetic pathways, contributing to the development of complex molecules.
- 1-Naphthylboronic acid pharmaceutical intermediate plays a critical role in drug discovery and development pipelines, enabling the synthesis of novel therapeutic agents.
- Leverage its function as a Suzuki coupling reagent to efficiently construct carbon-carbon bonds, a fundamental step in creating advanced organic materials.
- Utilize this compound as an essential arylboron difluoride precursor for generating important Lewis acids used in catalysis and synthesis.
- As a versatile organic synthesis building block, it offers chemists a reliable tool for assembling intricate molecular architectures.
Key Advantages
Enhanced Reaction Efficiency
Employing 1-Naphthylboronic Acid in Suzuki coupling reactions leads to high yields of biaryls, streamlining your synthetic processes and improving overall efficiency.
Synthetic Versatility
Its ability to act as a precursor for arylboron difluoride Lewis acids broadens its application scope in various catalytic transformations and complex molecule synthesis.
Safe Handling and Storage
Classified as non-dangerous goods, this compound simplifies logistics and safety protocols, making it ideal for both laboratory and industrial settings.
Key Applications
Pharmaceutical Synthesis
Serves as a vital intermediate in the synthesis of active pharmaceutical ingredients (APIs), supporting the creation of new drugs and therapies.
Organic Synthesis
A fundamental building block for intricate organic molecule construction, enabling diverse synthetic routes and the creation of novel compounds.
Material Science
Its applications extend to material science, where it can be used to synthesize advanced materials with tailored properties.
Catalysis Research
A crucial component in developing new catalytic systems and exploring novel reaction mechanisms in chemistry.
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