Explore the Potential of 1,2-Di(4-carboxyphenyl)-1,2-diphenylethylene
A crucial intermediate for cutting-edge materials in optoelectronics and beyond.
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1,2-Di(4-carboxyphenyl)-1,2-diphenylethylene
This compound stands out as a versatile chemical intermediate, primarily recognized for its role as an aggregation-induced emission (AIE) dye. Its unique molecular structure allows for effective esterification with hydroxyl and amino groups, paving the way for its application in the synthesis of sophisticated materials, particularly within the field of optoelectronics. As a key component for advanced materials synthesis, its contribution to innovative product development is significant.
- Leverage this AIE dye for aggregation-induced emission applications in advanced materials research.
- Utilize this high purity (97% min) chemical intermediate as a fundamental building block in sophisticated organic chemistry projects.
- Discover its potential as a valuable component for advanced materials synthesis, driving innovation in electronic and optical devices.
- Inquire about our reliable supply chain for this critical chemical intermediate to ensure your production needs are met.
Key Advantages of Using This Intermediate
Versatile Chemical Reactivity
The presence of carboxyl groups makes it an excellent candidate for further chemical modification, enabling the synthesis of diverse complex molecules essential for various industries, supporting your chemical intermediate for OLED materials projects.
Enabling AIE Phenomena
Its classification as an aggregation-induced emission (AIE) dye highlights its unique photophysical properties, making it a sought-after component for developing advanced fluorescent materials and sensors.
High Purity for Demanding Applications
With a minimum purity of 97%, this compound is suitable for applications requiring stringent quality control, ensuring reliable performance in sensitive electronic and pharmaceutical applications.
Key Applications
OLED Material Synthesis
This chemical intermediate is crucial for developing novel organic light-emitting diode (OLED) materials, contributing to brighter and more efficient display technologies.
COF and MOF Ligand Design
Its structure makes it an ideal ligand for creating Covalent Organic Frameworks (COFs) and Metal-Organic Frameworks (MOFs), advancing porous materials research.
Advanced Organic Synthesis
Serves as a fundamental building block in complex organic synthesis, enabling the creation of molecules with specific functionalities for various high-tech applications.
Fluorescent Probe Development
The AIE properties make it a promising candidate for developing sensitive fluorescent probes for biological imaging and chemical sensing.
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