High-Purity Tetra-Substituted Tetraphenylethylene Derivative: Synthesis, Properties, and Applications
Discover the advanced properties and diverse applications of our high-purity tetra-substituted tetraphenylethylene derivative (CAS: 1624970-54-2). A key material for cutting-edge research and development in optoelectronics and advanced materials.
Get a Quote & SampleUnlocking Novel Material Properties with Advanced Intermediates
Tetra-Substituted Tetraphenylethylene Derivative
As a leading manufacturer and supplier in China, we offer a high-purity tetra-substituted tetraphenylethylene derivative (CAS: 1624970-54-2), a critical intermediate for advanced material synthesis. This compound, with its unique C54H36O4 molecular formula and 748.86 molecular weight, is renowned for its aggregation-induced luminescence (AIE) properties, making it a sought-after component for optoelectronic devices and functional materials.
- Explore the synthesis of aggregation-induced luminescence (AIE) materials from our reliable Chinese manufacturer.
- Source high-purity C54H36O4 intermediates for your R&D projects.
- Purchase organic electronic material precursors with guaranteed quality and competitive pricing.
- Find trusted suppliers for MOF and COF linkers to advance your material science innovations.
Key Advantages for Your Material Science Needs
Aggregation-Induced Luminescence (AIE)
Leverage the unique AIE properties of this derivative, crucial for developing efficient solid-state emitters and advanced luminescent applications.
Versatile Building Block
Serve as an essential precursor for the synthesis of Metal-Organic Frameworks (MOFs) and Covalent Organic Frameworks (COFs), enabling novel gas storage, separation, and catalytic applications.
Superior Purity and Quality
Procure materials with guaranteed 97% minimum purity from our trusted supplier network, ensuring reliable performance in demanding applications.
Broad Application Spectrum for Innovative Research
Organic Electronics
Utilize this derivative in the manufacture of Organic Light-Emitting Diodes (OLEDs) and other organic electronic devices for enhanced performance and novel functionalities.
Optoelectronics
Incorporate into optoelectronic systems for applications requiring precise light emission and manipulation, driving innovation in display and lighting technologies.
MOF and COF Synthesis
As a key organic linker, it facilitates the construction of porous MOF and COF structures with tailored properties for gas adsorption, catalysis, and sensing.
Luminescent Materials Research
Investigate its potential in fluorescent probes, sensors, and other advanced luminescent material applications where its solid-state emission is advantageous.