4,4'-(Anthracene-9,10-diylbis(ethyne-2,1-diyl))dianiline: A Versatile Organic Building Block
Discover the potential of this key anthracene derivative for cutting-edge organic electronics and materials science.
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4,4'-(Anthracene-9,10-diylbis(ethyne-2,1-diyl))dianiline
This advanced organic compound, essential for next-generation technologies, leverages an anthracene core with ethynyl spacers and aniline termini. Its extensive pi-conjugation makes it a highly sought-after component for novel material development.
- Explore the synthesis of 4,4'-(Anthracene-9,10-diylbis(ethyne-2,1-diyl))dianiline for your advanced research needs. This compound is a crucial organic electronics precursor.
- Unlock new possibilities with MOF building blocks like this anthracene derivative, enabling the creation of advanced porous materials.
- Utilize this COF synthesis intermediate to develop high-performance Covalent Organic Frameworks for diverse applications.
- Investigate fluorescent probe applications leveraging the photophysical properties of this anthracene derivative for biological research.
Key Advantages
Enhanced Optoelectronic Properties
As an anthracene derivative for OLED materials, it contributes to superior device performance and efficiency, making it a valuable component in organic electronics.
Versatile Material Precursor
Its role as a MOF building block and COF synthesis intermediate highlights its adaptability in creating functional porous materials.
Advanced Research Capabilities
The compound's suitability for fluorescent probe applications opens doors for innovative biological imaging and sensing techniques.
Key Applications
Organic Electronics
This material serves as a critical component in Organic Light-Emitting Diodes (OLEDs) and Organic Photovoltaic Cells (OPVs) due to its excellent charge transport and light-emitting properties.
Porous Materials (MOFs/COFs)
As a key ligand, it facilitates the construction of Metal-Organic Frameworks (MOFs) and Covalent Organic Frameworks (COFs) for gas storage, separation, and catalysis.
Fluorescent Probes
Its intrinsic fluorescence makes it a promising candidate for developing sensitive probes in bioimaging and chemical sensing applications.
Chemical Synthesis Intermediate
It functions as a versatile intermediate in the synthesis of more complex organic molecules and functional materials.