Discover the Versatility of 3-Thienylacetic Acid in Modern Chemistry
Your essential guide to a key intermediate driving innovation in pharmaceuticals and materials science.
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3-Thienylacetic Acid
3-Thienylacetic Acid, identified by CAS No. 6964-21-2, stands as a crucial component in the landscape of modern chemical synthesis and pharmaceutical development. Its unique thiophene ring structure imparts distinct chemical properties, making it an invaluable building block for creating complex molecules utilized across various industries. With a purity of 99% minimum, it ensures reliability and consistency in critical research and manufacturing processes.
- Leverage 3-Thienylacetic Acid as a key intermediate for pharmaceutical synthesis, driving the development of new therapeutic agents.
- Explore the extensive applications of Thiophene-3-acetic Acid in organic synthesis, facilitating the creation of novel chemical structures.
- Understand the detailed CAS 6964-21-2 chemical properties, essential for precise application in your research and development projects.
- Secure high-quality 3-Thienylacetic Acid for drug development, ensuring efficacy and predictability in your pharmaceutical endeavors.
Advantages You Can Count On
Versatile Chemical Intermediate
Utilize 3-Thienylacetic Acid in various organic synthesis pathways, benefiting from its reactivity and stability as a building block.
Pharmaceutical Development Catalyst
Integrate this compound into your drug development processes to create innovative pharmaceuticals and enhance existing treatments.
Enabling Material Science Innovation
Explore the potential of thiophene-3-acetic acid in material science, particularly in the burgeoning field of organic electronics and conductive polymers.
Key Applications
Pharmaceutical Industry
Serve as a vital precursor in the synthesis of active pharmaceutical ingredients (APIs), contributing to the development of new medications.
Agrochemicals
Find application in the creation of advanced agrochemicals, aiding in crop protection and yield enhancement.
Organic Synthesis
Act as a versatile building block for complex organic molecules, enabling efficient and innovative synthetic routes.
Material Science
Contribute to the development of functional materials, including organic semiconductors and conductive polymers for next-generation electronics.