CAS:6642-31-5, widely recognized as 4-(Hydroxymethyl)phenylboronic acid, is a white powder gaining traction across various scientific and industrial sectors. According to recent searches, this compound is pivotal in organic synthesis, particularly in medicinal chemistry, and boasts applications in material science. In this article, we explore its functionalities, advantages, disadvantages, user feedback, and cost analysis for prospective buyers.
A primary use of this compound is as a boronic acid reagent in Suzuki-Miyaura cross-coupling reactions. This role is vital for constructing carbon-carbon bonds essential for synthesizing complex organic molecules.
Within the realm of medicinal chemistry, it acts as a crucial building block for the development of new pharmaceuticals. Its ability to form stable connections renders it highly significant in creating various drug candidates.
The compound's unique properties make it highly suited for biosensing technologies, especially for glucose detection, as it effectively interacts with certain biological molecules.
This white powder also plays a role in modifying polymer properties, making it an essential resource in producing advanced materials.
Thanks to the presence of a hydroxymethyl group, further functionalization is possible, allowing for greater flexibility in experimental design.
Numerous scientists and researchers have attested to the benefits of employing CAS:6642-31-5 in their projects. A synthetic chemist remarked that the compound notably improved yields in cross-coupling reactions compared to alternative reagents. Users have conveyed that its application in complex syntheses has streamlined processes that were previously cumbersome.
Furthermore, biotechnology professionals have lauded its efficacy in enzyme assays, noting that its stability leads to more reliable experimental results. This reliability is a significant factor for users when choosing reagents.
The cost of CAS:6642-31-5 generally falls between $200 and $500 per kilogram, influenced by the supplier and the powder's purity. While this may appear expensive, the compound's performance and multifaceted nature often justify the investment. Researchers and industries can achieve desired outcomes in their applications, offsetting the initial expense.
When juxtaposed with alternative reagents that could yield unpredictable results, CAS:6642-31-5 demonstrates a compelling cost-benefit ratio, especially for critical pharmaceutical development projects.
In summary, CAS:6642-31-5, a versatile white powder, holds immense potential across applications from organic synthesis to advanced material science. Its high purity, versatility, and suitability for intricate chemical reactions render it an invaluable asset in many laboratories. Despite considerations related to its accessibility and necessary handling precautions, feedback from users suggests that its advantages greatly surpass any drawbacks. Though on the pricier side, its pricing structure ensures an excellent return on investment for those who prioritize quality and dependability in their research and developmental efforts. As industries continue to advance, so too will the demand for such compounds, underscoring the significant role played by CAS:6642-31-5 in contemporary scientific progress.
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