Advanced Covalent Organic Framework (COF) Linker: Explore Properties and Applications of Ethynylene Dibenzaldehyde
Discover the potential of CAS 192188-70-8, a vital organic building block for advanced material development, offering unique properties for cutting-edge research and industrial applications.
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Ethynylene Dibenzaldehyde
As a leading supplier in China, we provide high-purity Ethynylene Dibenzaldehyde (CAS 192188-70-8), a crucial organic monomer for the synthesis of Covalent Organic Frameworks (COFs). Our commitment as a reliable manufacturer in China ensures that researchers and material scientists have access to this key building block for developing advanced materials with tailored properties.
- Discover the potential of CAS 192188-70-8 as a versatile organic synthesis intermediate, enabling the creation of complex molecular architectures.
- Explore the significance of Ethynylene Dibenzaldehyde in material science, serving as a critical component for novel COF material development.
- Leverage our high-quality Ethynylene Dibenzaldehyde to advance your research in organic electronics and functional material design.
- Benefit from our expertise as a manufacturer in China, providing consistent purity and supply for your critical projects.
Advantages Offered
High Purity for Precise Synthesis
Our Ethynylene Dibenzaldehyde ensures exceptional purity, crucial for precise synthesis in COF material development and other advanced applications.
Versatile Building Block
This compound acts as a versatile building block, essential for creating complex organic molecules and novel materials in research and development.
Enabling Advanced Materials
Utilize Ethynylene Dibenzaldehyde to push the boundaries in material science, particularly in the creation of cutting-edge COFs and organic electronic components.
Key Applications
COF Materials Synthesis
Ethynylene Dibenzaldehyde is a primary monomer for constructing Covalent Organic Frameworks, renowned for their porous structures and diverse applications.
Organic Electronics
The conjugated system within this molecule makes it a valuable component for research in organic solar cells, LEDs, and other electronic devices.
Organic Synthesis Intermediate
Its dual aldehyde functionalities and rigid backbone make it an effective intermediate for synthesizing more complex organic compounds.
Material Science Innovation
Explore the potential of this compound in developing novel materials with unique thermal, electrical, or optical properties.