Tetrakis(3-formaldehydebiphenyl)ethylene: A Key Building Block for Advanced Materials
Unlock the potential of COFs and MOFs with this high-purity organic intermediate.
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Tetrakis(3-formaldehydebiphenyl)ethylene
Tetrakis(3-formaldehydebiphenyl)ethylene, identified by CAS number 2351847-81-7, is a crucial organic compound with the molecular formula C54H36O4. This brownish black powder serves as a foundational monomer for the synthesis of advanced porous materials such as Covalent Organic Frameworks (COFs) and Metal-Organic Frameworks (MOFs).
- Discover the intricate details of CAS 2351847-81-7 chemical properties and its role in innovative materials.
- Explore how Tetrakis(3-formaldehydebiphenyl)ethylene serves as a key component in COF monomers synthesis for cutting-edge applications.
- Leverage the advantages of MOF building blocks to engineer materials with tailored functionalities.
- Investigate the diverse formaldehyde biphenyl ethylene applications in optoelectronics and beyond.
Advantages Provided by the Product
Versatile Monomer for Framework Synthesis
This compound is essential for creating novel COF and MOF structures, enabling the development of materials with highly controlled porosity and chemical properties, directly supporting advancements in COF monomers synthesis.
Applications in Advanced Technologies
Its unique structure makes it ideal for optoelectronic devices, bio-labeling, and other high-tech applications, underscoring its importance in materials science building blocks and the broader chemical synthesis landscape.
High Purity and Quality
Ensuring high purity for Tetrakis(3-formaldehydebiphenyl)ethylene is critical for successful synthesis reactions, providing reliable results for research and development, and contributing to the demand for high purity Tetrakis(3-formaldehydebiphenyl)ethylene.
Key Applications
COF Synthesis
As a key precursor, it is instrumental in the construction of Covalent Organic Frameworks, paving the way for new material designs.
MOF Synthesis
This molecule acts as a fundamental MOF building block, contributing to the creation of advanced porous materials.
Optoelectronic Devices
Its chemical properties make it suitable for use in cutting-edge optoelectronic materials, driving innovation in this sector.
Bio-labeling
The compound's structure lends itself to applications in bio-labeling technologies, enhancing diagnostic and imaging capabilities.