1,4-Phenylenebisboronic Acid: A Versatile Intermediate for Advanced Materials and Organic Synthesis
Explore the applications of this key organoboron compound in synthesis, materials, and biosensing.
Get a Quote & SampleProduct Core Value
1,4-Phenylenebisboronic Acid
1,4-Phenylenebisboronic Acid (CAS 4612-26-4) is a crucial organoboron compound recognized for its dual boronic acid functionalities. This structure makes it a highly versatile building block in organic synthesis, enabling advanced applications in materials science and medicinal chemistry. Its ability to participate in cross-coupling reactions, like the Suzuki-Miyaura coupling, is fundamental for constructing complex organic molecules and novel polymer architectures.
- Leverage the power of organoboron compounds like 1,4-phenylenebisboronic acid for complex organic synthesis projects.
- Discover the extensive use of this boronic acid intermediate in pharma, aiding the creation of drug molecules.
- Explore how this compound acts as a cross-linking agent for polymers, enhancing material properties.
- Utilize its recognition element capabilities in biosensors for precise detection of biomolecules.
Key Advantages
Synthetic Versatility
The dual boronic acid groups enable diverse reactions, making it an invaluable tool for complex organic synthesis and the development of advanced materials.
Material Science Innovation
As a cross-linking agent, it enhances the mechanical strength and thermal stability of polymers, driving innovation in material science.
Biomedical Applications
Its utility extends to biosensors and drug delivery systems, showcasing its importance in biotechnology and medicinal chemistry.
Key Applications
Pharmaceutical Synthesis
This compound serves as a critical pharmaceutical intermediate, facilitating the synthesis of drug molecules and contributing to medicinal chemistry advancements.
Polymer Development
Its role as a cross-linking agent is vital in creating advanced polymers with improved physical and chemical properties for diverse industrial uses.
Biosensing Technology
The compound's unique binding properties make it an excellent recognition element in biosensors for accurate detection of sugars and other biomolecules.
Organic Chemistry Research
A fundamental reagent in organic synthesis, enabling complex reactions like Suzuki coupling for novel compound creation.