Unlocking the Secrets of CAS:6642-31-5 White Powder

# Unlocking the Secrets of CAS:6642-31-5 White Powder.

CAS:6642-31-5, often identified as 4-(Hydroxymethyl)phenylboronic acid, is a white powder that has garnered attention in various scientific and industrial applications. This compound plays a crucial role in organic synthesis, medicinal chemistry, and even in material science. Here, we delve into its functionalities, pros and cons, user experiences, and cost-effectiveness for potential buyers.

## Key Functions of CAS:6642-31-5.

1. **Reagent in Organic Synthesis**: One of the primary applications of this compound is as a boronic acid reagent in Suzuki-Miyaura cross-coupling reactions. This function is critical for forming carbon-carbon bonds in the synthesis of complex organic molecules.

2. **Pharmaceutical Development**: In medicinal chemistry, it serves as a building block for developing pharmaceuticals. The ability to form stable bonds makes it significant in creating various drug candidates.

3. **Biosensing Applications**: The compound exhibits unique properties that make it ideal for biosensors, particularly in glucose detection, due to its ability to interact with certain biological molecules.

4. **Polymer Chemistry**: This white powder can also be utilized to modify the properties of polymers, making it a valuable resource in the production of advanced materials.

5. **Versatile Derivatization**: The presence of a hydroxymethyl group allows for further functionalization, providing flexibility in experimental design.

## Advantages and Disadvantages.

### Advantages.

- **High Purity**: CAS:6642-31-5 is known for its high purity, which is crucial for laboratory settings and industrial applications where precision matters.

- **Versatile Usage**: Its multifunctionality makes it a staple in various fields, including biotechnology and pharmaceuticals.

- **Ease of Handling**: The white powder form is easy to store and measure, which aids in smoother laboratory operations.

### Disadvantages.

- **Limited Accessibility**: While the compound is valuable, it might not be readily available in all markets, making procurement challenging for some interested parties.

- **Reactivity**: Users must handle it with care, as it can react with moisture and other chemicals, requiring proper storage conditions.

## Real-World Experiences.

Many scientists and researchers have highlighted the benefits of using CAS:6642-31-5 in their studies. A researcher in synthetic chemistry noted that the compound significantly improved yield in cross-coupling reactions compared to other reagents. Users reported that its strategic application in complex syntheses simplified what was once a tedious process.

Additionally, professionals in biotechnology have praised its role in enzyme assays, particularly how its stability contributes to more reliable experimental results. This consistency in performance is a significant factor that users consider when selecting reagents.

## Pricing and Value Proposition.

When considering the cost of CAS:6642-31-5, pricing typically ranges between $200 to $500 per kilogram, depending on the supplier and the purity level of the powder. While this price point may seem high, the compound’s high performance and multifunctionality often provide excellent value for the investment. It allows researchers and industries to achieve desirable outcomes in their respective applications, compensating for the upfront cost.

Moreover, when compared to alternative reagents that may yield inconsistent results, CAS:6642-31-5 presents a compelling cost-benefit ratio, particularly for high-stakes projects in pharmaceutical developments.

## Conclusion.

In conclusion, CAS:6642-31-5 white powder is a remarkable compound with diverse applications that extend from organic synthesis to advanced material science. Its high purity, versatility, and suitability for complex chemical reactions make it a valuable asset in many laboratories. While considerations regarding accessibility and careful handling exist, the consensus among users indicates that its benefits far outweigh the drawbacks. The pricing structure, while on the higher end, offers a great return on investment for those who prioritize quality and reliability in their research and development endeavors. As industries continue to evolve, the demand for such compounds will only increase, highlighting the importance of CAS:6642-31-5 in modern scientific advancements.

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