Discover the Power of Perylene Dianhydride
Unlocking advanced applications in electronics and photonics with high-purity perylene derivatives.
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1,6,7,12-Tetra-tert-butylphenoxyperylene-3,4,9,10-tetracarboxylic dianhydride
This high-purity organic compound serves as a crucial building block for next-generation electronic and optical devices. Its unique structure makes it invaluable for developing advanced fluorescent probes and materials with desirable photovoltaic properties.
- Leverage 1,6,7,12-Tetra-tert-butylphenoxyperylene-3,4,9,10-tetracarboxylic dianhydride CAS 156028-30-7 for advanced fluorochrome chemical applications.
- Explore the preparation of perylene bisimide cyclophane for sophisticated fluorescent probe synthesis.
- Utilize this compound as a key ligand in dye-sensitized solar cells for enhanced energy conversion.
- Benefit from its high purity for reliable performance in chemical synthesis and advanced electronic materials.
Key Advantages
Exceptional Purity
Achieve superior results in your research and development by utilizing a chemical compound with 99% purity, ensuring consistent and predictable performance in specialized applications.
Versatile Applications
This perylene derivative is a versatile building block, enabling advancements in areas such as creating fluorescent probes and ligands for cutting-edge photovoltaic technologies.
Enhanced Photovoltaic Properties
As a ligand in dye-sensitized solar cells, this compound contributes to improved energy harvesting, making it a valuable asset for renewable energy research.
Key Applications
Fluorescent Probes
The synthesis of perylene bisimide cyclophane relies on compounds like this to create highly sensitive fluorescent probes for various biological and chemical detection methods.
Solar Energy
Its role as a ligand in dye-sensitized solar cells highlights its potential in the field of renewable energy, contributing to the development of more efficient photovoltaic devices.
Advanced Materials
This chemical compound is a critical component in the creation of advanced materials with specific optical and electronic properties, suitable for high-tech industries.
Organic Synthesis
As a high-purity organic intermediate, it facilitates complex chemical synthesis pathways, enabling the creation of novel molecules and materials.