Triphenylacetic Acid: Synthesis, Properties, and Applications
Discover the essential properties and versatile applications of Triphenylacetic Acid in chemical research and pharmaceuticals.
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Triphenylacetic Acid
Triphenylacetic Acid is a high-purity organic compound, essential for various advanced chemical and pharmaceutical applications. Its stability and unique chemical structure make it a valuable asset in synthesis and formulation.
- Explore the use of triphenylacetic acid as an organic acid excipient for vilanterol and other drug molecules, showcasing its pharmaceutical importance.
- Investigate the application of triphenylacetic acid in MOF-5 structures for trapping organic dyes, highlighting its role in advanced materials.
- Understand the chemical research utility of triphenylacetic acid, including its potential to inhibit microsomal bilirubin UDPglucuronosyltransferase activity.
- Learn about the key properties of triphenylacetic acid, such as its 98% purity and white to beige crystalline powder appearance.
Key Advantages
Versatile Pharmaceutical Applications
Leverage triphenylacetic acid's capability as a salt-forming excipient for drug molecules, enhancing formulation stability and efficacy in pharmaceutical development.
Advanced Material Science
Utilize triphenylacetic acid for sophisticated applications like trapping organic dyes within Metal-Organic Frameworks (MOFs), pushing the boundaries of material science.
Purity and Stability
Benefit from the high purity (98%+) and stability of triphenylacetic acid under normal conditions, ensuring reliable results in synthesis and research.
Key Applications
Pharmaceutical Formulation
As a crucial organic acid excipient, triphenylacetic acid plays a vital role in the formulation of various pharmaceutical compounds, including vilanterol.
Material Science Research
Its unique properties allow for applications in material science, such as enabling triphenylacetic acid MOF-5 dye trapping for specialized material development.
Biochemical Research
Triphenylacetic acid is employed in biochemical studies, including investigating its inhibitory effects on enzyme activities, contributing to a deeper understanding of biological processes.
General Chemical Synthesis
With its well-defined structure and purity, triphenylacetic acid CAS 595-91-5 is a valuable reagent for various organic synthesis pathways in chemical research laboratories.