5,5',5''-(Methylsilylidyne)tris-1,3-Benzenedicarboxylic Acid: A Key Linker for Advanced Framework Materials
Discover the potential of silicon-centered organic linkers in creating next-generation porous materials for diverse scientific and industrial applications. Explore this versatile building block for your research.
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5,5',5''-(Methylsilylidyne)tris-1,3-Benzenedicarboxylic Acid
As a reliable supplier in China, we offer 5,5',5''-(methylsilylidyne)tris-1,3-benzenedicarboxylic acid, a unique trifunctional organic molecule designed as a critical linker for synthesizing advanced porous materials like MOFs and COFs. Its silicon-centered structure provides distinct topological and chemical properties, making it invaluable for researchers developing materials for gas storage, separation, and catalysis.
- Leverage our expertise as a leading supplier in China for high-purity silicon-centered organic linkers, crucial for the synthesis of COFs with silicon-centered connectors.
- Explore the potential of this organic linker for porous materials, enabling innovative applications in gas adsorption and separation technologies.
- Utilize this building block in your advanced framework materials synthesis, ensuring precise control over material architecture and functionality.
- Investigate the unique properties of silicon-based organic linkers to push the boundaries of material science and discover novel functionalities.
Advantages Offered by the Product
Unique Silicon Core
The central silicon atom provides a distinctive structural element, differentiating it from purely organic linkers and enabling unique material properties crucial for advanced framework materials synthesis.
Trifunctional Design
With three isophthalic acid groups, this compound acts as an efficient linker, facilitating the construction of robust and ordered porous frameworks, essential for effective MOF synthesis.
Versatile Applications
As an organic linker for porous materials, it opens doors to diverse applications, including gas storage, chemical separations, and heterogeneous catalysis, supporting various long tail keyword needs.
Key Applications
MOF Synthesis
This compound is a fundamental building block for creating Metal-Organic Frameworks, offering tailored pore sizes and chemical functionalities for specialized applications.
COF Synthesis
It serves as a key monomer in the synthesis of Covalent Organic Frameworks, particularly those incorporating silicon-centered connectors for enhanced stability and performance.
Advanced Porous Materials
The unique structure makes it ideal for developing advanced porous materials with precise control over porosity, surface area, and chemical reactivity for cutting-edge research.
Material Science Research
Researchers utilize this linker to explore novel silicon-based organic chemistry and design new materials with properties suitable for challenging chemical environments.