Discover the Power of 5,5'-(9,10-Anthracenediyl)diisophthalic Acid
Unlock new possibilities in materials science with this high-purity chemical intermediate.
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5,5'-(9,10-Anthracenediyl)diisophthalic Acid
This specialized organic compound, identified by CAS No. 422269-95-2, is a critical building block for cutting-edge material applications. Its robust molecular structure makes it an ideal candidate for creating Metal-Organic Frameworks (MOFs) and other advanced functional materials.
- Explore organic chemical intermediates for MOFs to advance your research in gas storage and catalysis.
- Utilize high purity aromatic dicarboxylic acids for creating novel polymers with tailored properties.
- Leverage the anthracene backbone in anthracene-based building blocks for advanced materials to enhance optical or electronic characteristics.
- Source specialty organic compounds for research that offer unique reactivity and structural advantages.
Advantages You Gain
Exceptional Purity
With a guaranteed minimum purity of 97%, this compound ensures reliable and reproducible results in your synthesis, supporting the need for high purity aromatic dicarboxylic acids.
Versatile Synthesis Applications
Its bifunctional nature makes it a key intermediate in organic chemical intermediates for MOFs, enabling diverse network structures.
Enhanced Material Properties
The anthracene core contributes unique electronic and optical properties, making it valuable for developing advanced materials as part of anthracene-based building blocks for advanced materials.
Key Applications
Metal-Organic Frameworks (MOFs)
As a critical precursor, it enables the construction of MOFs for applications in gas adsorption, separation, and catalysis, aligning with the demand for MOF synthesis precursors.
Organic Synthesis
Serves as a vital intermediate in complex organic reactions, facilitating the synthesis of novel compounds and materials, fitting the description of specialty organic compounds for research.
Advanced Materials Development
Its structure is suitable for incorporation into polymers and other advanced materials where specific electronic or structural properties are required, supporting the use of anthracene-based building blocks for advanced materials.
Pharmaceutical Intermediates
While primarily for materials, its aromatic dicarboxylic acid structure can also find utility as a raw intermediate in certain pharmaceutical synthesis pathways, addressing the need for pharmaceutical raw intermediates.