Discover 1,3-Benzenedicarboxylic Acid, 5,5',5'',5'''-silanetetrayltetrakis- for Your Next Breakthrough
Your premier source for high-quality organic linkers, enabling advanced MOF and COF material development.
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1,3-Benzenedicarboxylic Acid, 5,5',5'',5'''-silanetetrayltetrakis-
This meticulously synthesized compound serves as a critical organic linker, indispensable for constructing sophisticated Metal-Organic Frameworks (MOFs) and Covalent Organic Frameworks (COFs). Its unique structure, featuring silanetetrayltetrakis connectivity, allows for the creation of advanced porous materials with tailored properties for diverse industrial applications.
- Explore the synthesis of COFs using this vital building block, key for developing novel materials.
- Leverage high purity 1,3-Benzenedicarboxylic Acid 5,5',5'',5'''-silanetetrayltetrakis- for your research needs.
- Understand the role of silanetetrayltetrakis benzenedicarboxylic acid in advanced material science.
- Source reliable MOF linkers like this 1,3-Benzenedicarboxylic Acid 5,5',5'',5'''-silanetetrayltetrakis- for your synthesis projects.
Advantages You Gain
Exceptional Purity
We guarantee high purity for our 1,3-Benzenedicarboxylic Acid, 5,5',5'',5'''-silanetetrayltetrakis-, ensuring reliable and reproducible results in your MOF and COF synthesis, crucial for consistent material performance.
Versatile Application
This CAS 1412999-57-5 compound is a cornerstone for creating materials used in gas adsorption and separation, offering broad utility for researchers and developers in the field of porous materials.
Global Accessibility
Benefit from our efficient global shipping network, making this essential MOF linker readily available, allowing you to purchase this chemical intermediate with ease and speed.
Key Applications
MOF Synthesis
As a primary organic linker, it's fundamental in creating MOFs for applications such as gas storage, catalysis, and chemical separation. Using this 1,3-Benzenedicarboxylic Acid, 5,5',5'',5'''-silanetetrayltetrakis- enables the design of frameworks with specific pore sizes and functionalities.
COF Building Blocks
This compound is also a vital monomer for COFs, contributing to the development of materials with high surface areas and tunable structures for advanced electronic and catalytic devices.
Material Science Research
Its unique molecular structure makes it a subject of interest in material science for exploring new functionalities and properties in porous materials, aiding in the discovery of next-generation materials.
Chemical Intermediate
Beyond MOFs and COFs, it serves as a valuable intermediate in various organic synthesis pathways, supporting innovation across different chemical disciplines.