In the dynamic realm of scientific research, access to high-quality chemical intermediates is fundamental for driving innovation. 4-Butylphenylboronic Acid (CAS 145240-28-4) has emerged as a highly versatile and sought-after compound, instrumental in numerous research applications across organic synthesis, pharmaceutical development, and material science. For researchers aiming to purchase this valuable reagent, understanding its broad applicability and the importance of high purity is key.

The Versatility of 4-Butylphenylboronic Acid in Research

At its core, 4-Butylphenylboronic Acid is an organoboron compound prized for its reactivity in forming carbon-carbon bonds, primarily through the Suzuki-Miyaura cross-coupling reaction. This makes it an indispensable tool for chemists engaged in the synthesis of complex organic molecules. The compound's structure, featuring a butyl group attached to a phenyl ring and a boronic acid functional group, imparts favorable solubility and reactivity profiles, making it suitable for a wide range of laboratory conditions.

Key Research Applications:

  1. Organic Synthesis: As a staple in synthetic organic chemistry laboratories, 4-Butylphenylboronic Acid is used to construct intricate molecular scaffolds. Researchers frequently employ it to create biaryl compounds, which are common structural motifs in many biologically active molecules and advanced materials. The reliability of this intermediate ensures reproducible results in synthetic experiments.
  2. Pharmaceutical Research: In drug discovery and development, this boronic acid derivative serves as a crucial building block. It is used to synthesize novel drug candidates, including those designed to target specific biological pathways. The incorporation of boron into drug molecules can offer unique pharmacological properties, and 4-Butylphenylboronic Acid provides an accessible entry point for such research. Scientists often buy this compound from specialized suppliers to ensure the high purity required for medicinal chemistry.
  3. Material Science Innovation: The compound finds significant application in the development of novel materials. It can be incorporated into polymers, organic semiconductors, and liquid crystals, imparting specific electronic, optical, or thermal properties. Its role in creating functional materials for applications like OLEDs or advanced coatings is a growing area of research.
  4. Agrochemical Development: Beyond pharmaceuticals, researchers also utilize 4-Butylphenylboronic Acid in the synthesis of next-generation agrochemicals. It aids in creating more effective pesticides, herbicides, and fungicides, contributing to advancements in crop protection and agricultural productivity.

Ensuring Research Success: Purity and Sourcing

For researchers, the purity of 4-Butylphenylboronic Acid is critical. Impurities can interfere with reaction mechanisms, leading to inaccurate results or failed experiments. Therefore, sourcing this intermediate from reputable manufacturers, often with a guaranteed purity of 99%, is essential. Companies looking to buy can find reliable suppliers, including many based in China, who offer this compound with comprehensive specifications and certificates of analysis. These suppliers provide not only the necessary quality but also competitive pricing and dependable delivery for laboratory needs.

In conclusion, 4-Butylphenylboronic Acid (CAS 145240-28-4) is a powerhouse intermediate for researchers across multiple disciplines. Its application in Suzuki coupling and its role in creating diverse molecules make it indispensable for advancing organic synthesis, pharmaceutical discovery, and material innovation. By prioritizing high purity and reliable sourcing from experienced suppliers, researchers can confidently utilize this compound to achieve breakthrough results.