4-PHENOXYPHENYLBORONIC ACID CAS: 51067-38-0
Catalog Number | XD93429 |
Product Name | 4-PHENOXYPHENYLBORONIC ACID |
CAS | 51067-38-0 |
Molecular Formula | C12H11BO3 |
Molecular Weight | 214.02 |
Storage Details | Ambient |
Product Specification
Appearance | White powder |
Assay | 99% min |
4-Phenoxphenylboronic acid is an organic compound with the chemical formula C12H11BO3. It is a white crystalline solid that possesses unique properties, making it useful in several applications in various fields.One primary application of 4-phenoxphenylboronic acid is in the field of organic synthesis. It serves as a versatile building block or starting material for the synthesis of more complex compounds. The boronic acid group present in its structure allows for the formation of boronate esters, which are highly valuable intermediates in the development of pharmaceuticals, agrochemicals, and materials.Due to its ability to form stable complexes with diols and carbohydrates, 4-phenoxphenylboronic acid is commonly used in the field of biochemistry. It is an essential component in the design and development of glucose-sensing systems. The boronic acid group can selectively bind to glucose molecules, leading to changes in fluorescence, color, or electrical signals, which can be measured and used for glucose detection or monitoring in diabetic patients.Another notable application of 4-phenoxphenylboronic acid is in coordination chemistry. Its boronic acid group allows for coordination with metal ions, resulting in the formation of metal complexes. These complexes have been studied for their potential use in catalysis, sensors, and molecular recognition. For instance, they can act as catalysts for various organic transformations, including carbon-carbon coupling reactions, thus enabling the synthesis of complex molecules in a more efficient and sustainable manner.Furthermore, 4-phenoxphenylboronic acid has been investigated for its potential use in material science. Boron-based compounds have unique electronic and optical properties, making them interesting candidates for the development of advanced materials. By incorporating 4-phenoxphenylboronic acid into polymers or hybrid materials, researchers aim to enhance their properties, such as conductivity, luminescence, or mechanical strength.Additionally, this compound has also found applications in the field of analytical chemistry. Boronic acid derivatives, including 4-phenoxphenylboronic acid, can be used as selective receptors or sensors for the detection of various analytes, such as saccharides, amino acids, or nucleotides. These sensors have been employed in environmental monitoring, food analysis, and biomedical research.In summary, 4-phenoxphenylboronic acid is a versatile compound with diverse applications. Its utility in organic synthesis, biochemistry, coordination chemistry, material science, and analytical chemistry highlights its potential in various scientific and industrial settings. As researchers continue to explore its properties and develop innovative applications, the significance of 4-phenoxphenylboronic acid is likely to grow further.