High-Purity Hydroquinone Diphthalic Anhydride (HQDA) for Advanced Synthesis
Unlock novel material possibilities with HQDA, a key intermediate for innovative chemical syntheses.
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Hydroquinone Diphthalic Anhydride
Hydroquinone Diphthalic Anhydride (HQDA), identified by CAS No. 17828-53-4, is a vital component in the realm of advanced chemical synthesis. Its molecular formula, C22H10O8, and a molecular weight of 402.31 g/mol, underscore its role as a sophisticated building block. Offered with a purity of 97% minimum, HQDA presents as a solid, ready for integration into complex chemical processes.
- Discover the utility of HQDA in synthesis materials intermediates, paving the way for novel material development.
- Leverage the consistent quality of our hydroquinone diphthalic anhydride CAS 17828-53-4 for your research and development needs.
- Source high purity hydroquinone diphthalic anhydride for demanding applications in fine chemical synthesis.
- Explore the potential of 1,4-Bis(3,4-dicarboxyphenoxy)benzene dianhydride applications in creating next-generation materials.
Advantages Offered
Exceptional Purity
Our HQDA is guaranteed to be 97% pure, ensuring reliable and predictable results in your fine chemical intermediate syntheses.
Versatile Application
This compound serves as a critical building block, supporting innovation in diverse synthesis pathways for materials.
Reliable Sourcing
As a trusted supplier of hydroquinone diphthalic anhydride CAS 17828-53-4, we ensure consistent availability for your ongoing projects.
Key Applications
Materials Synthesis
Utilize HQDA as a key component in the synthesis of advanced materials, benefiting from its unique structural properties.
Fine Chemical Production
Integrate HQDA into your fine chemical intermediate processes to achieve high-quality end products.
Research and Development
Essential for R&D, HQDA enables the exploration of new chemical compounds and material functionalities.
Polymer Chemistry
Explore the use of this dianhydride in the development of specialized polymers with enhanced characteristics.