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Today's Deal Diethyl 4,4′-(ethyne-1,2-diyl)dibenzoate - Going Fast [IHprb3Zx]
Diethyl 4,4′-(Ethyne-1,2-diyl)dibenzoate: A Pioneering MOF LigandIntroducing Diethyl 4,4′-(Ethyne-1,2-diyl)dibenzoate (DEEDB), a cutting-edge metal organic framework (MOF) ligand designed for superior hydrogen storage applications. This linear ligand
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Today's Deal Diethyl 4,4′-(ethyne-1,2-diyl)dibenzoate - Going Fast [IHprb3Zx]
Diethyl 4,4′-(Ethyne-1,2-diyl)dibenzoate: A Pioneering MOF Ligand
Introducing Diethyl 4,4′-(Ethyne-1,2-diyl)dibenzoate (DEEDB), a cutting-edge metal organic framework (MOF) ligand designed for superior hydrogen storage applications. This linear ligand linker offers a unique triple bond structure that connects two diethyl 4-benzoates at the 1,1'-positions, providing exceptional stability and functionality. DEEDB is a key component in the synthesis of various isocquinoline derivatives, showcasing its versatility in chemical reactions. With its high purity of >98% and melting point ranging from 147.0 to 151.0 °C, DEEDB is a reliable choice for researchers and industry professionals alike.
- High Purity: Ensures consistent and reproducible results in experiments.
- Stable Structure: Delivers reliable performance in various applications.
Product Specifications and Technical Details
DEEDB is classified under the diphenylacetylene and MOF ligands categories, making it an ideal choice for applications requiring high-performance ligands. Its chemical formula is C20H18NO4 with a molecular weight of 322.36 g/mol. This ligand is known for its off-white powder/crystal appearance and is commonly used in the synthesis of isocquinoline derivatives, which have potential applications as antifungal agents.
- Chemical Formula: C20H18NO4
- Molecular Weight: 322.36 g/mol
Applications and Benefits of DEEDB
DEEDB's exceptional properties make it a valuable tool in various applications, particularly in the field of hydrogen storage. Its use in the synthesis of GUF-1, an interpenetrated MIL-53 topology Sc-MOF, demonstrates its effectiveness in achieving excellent volumetric hydrogen storage and working capacity of 41 g/L in a temperature-pressure swing system. DEEDB is also well-suited for the synthesis of isocquinoline derivatives, which can serve as potential antifungal agents. This versatile ligand is a must-have for researchers and professionals in the fields of MOF chemistry, hydrogen storage, and medicinal chemistry.
- Hydrogen Storage: Enhances the efficiency of hydrogen storage systems.
- Medicinal Chemistry: Facilitates the synthesis of potential antifungal agents.
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