Discover the Benefits of CAS 1001911-63-2 Boronic Acid in Your Research

Discover the Benefits of CAS 1001911-63-2 Boronic Acid in Your Research

Are you looking for a versatile reagent that can enhance your research? CAS 1001911-63-2 Boronic Acid, also known as boronic acid, is a powerful tool that can be used in various research applications. This article will explore the benefits of boronic acid in your research, including its product parameters, usage scenarios, case studies, solutions, expert guidance, and frequently asked questions.

Product Parameters

Boronic acid, with the CAS number 1001911-63-2, is a colorless crystalline solid that is soluble in water and alcohols. It has a molecular formula of B(OH)3 and a molecular weight of 61.83 g/mol. The melting point of boronic acid is 101-102°C, and it is stable in dry air but can be hygroscopic in moist air.

Usage Scenarios

Boronic acid is widely used in various research fields, including organic synthesis, medicinal chemistry, and materials science. Here are some common usage scenarios:

• Organic Synthesis: Boronic acid can be used as a protecting group in organic synthesis, protecting alcohols and amines from unwanted reactions.
• Medicinal Chemistry: Boronic acid derivatives have been used as lead compounds in the development of new drugs, particularly for treating diabetes and cancer.
• Materials Science: Boronic acid can be used in the synthesis of novel materials, such as boronic acid esters, which have potential applications in optoelectronics and catalysis.

Case Studies

Here are two case studies that demonstrate the benefits of using boronic acid in research:

Case Study 1: Synthesis of a New Drug Candidate

In a recent study, researchers synthesized a new drug candidate for the treatment of diabetes using boronic acid as a protecting group. The boronic acid-protected intermediate was easily synthesized and could be selectively deprotected under mild conditions, leading to the desired drug candidate.

Case Study 2: Synthesis of a Novel Material

Another study focused on the synthesis of a novel material using boronic acid esters. The researchers successfully synthesized a boronic acid ester with a high degree of purity, which exhibited excellent optoelectronic properties. This material has potential applications in the development of new optoelectronic devices.

Solutions

When using boronic acid in your research, it is important to consider the following solutions:

• Handling and Storage: Boronic acid should be handled with care, as it can be harmful if inhaled or ingested. It should be stored in a cool, dry place, away from incompatible materials.
• Reactivity: Boronic acid is highly reactive and can undergo various reactions, such as hydrolysis, oxidation, and reduction. It is important to understand the reactivity of boronic acid and to use appropriate reaction conditions to achieve the desired results.
• Scale-up: When scaling up a reaction that uses boronic acid, it is important to optimize the reaction conditions and to use appropriate equipment to ensure the desired yield and purity.

Expert Guidance

For expert guidance on the use of boronic acid in your research, consider consulting with a chemist or a specialist in the relevant field. They can provide valuable insights and advice on the best practices for using boronic acid in your research projects.

Frequently Asked Questions (FQA)

Here are some frequently asked questions about boronic acid:

• Q: Is boronic acid toxic?
• A: Yes, boronic acid can be harmful if inhaled or ingested. It is important to handle it with care and follow proper safety protocols.
• Q: Can boronic acid be used in large-scale reactions?
• A: Yes, boronic acid can be used in large-scale reactions, but it is important to optimize the reaction conditions and use appropriate equipment to ensure the desired yield and purity.
• Q: What are the main applications of boronic acid in organic synthesis?
• A: Boronic acid is used as a protecting group in organic synthesis, protecting alcohols and amines from unwanted reactions.