3,6-Dibromo-phenanthrenequinone: Properties, Synthesis, and Applications in Organic Electronics
Explore the versatile applications of 3,6-Dibromo-phenanthrenequinone, a key intermediate in advanced organic synthesis and a critical component for next-generation electronic materials.
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3,6-Dibromo-phenanthrenequinone
As a leading supplier in China, we offer 3,6-Dibromo-phenanthrenequinone (CAS 53348-05-3), a crucial fine chemical for advanced organic synthesis. Its unique structure, featuring a phenanthrenequinone core with two bromine atoms, provides enhanced electron density and reactivity, making it invaluable for creating novel organic electronic devices, efficient solar cells, and cutting-edge optoelectronic materials.
- Leveraging 3,6-Dibromo-phenanthrenequinone for advanced organic synthesis: Its dual bromine substitution allows for diverse synthetic pathways, crucial for developing complex molecular architectures.
- Understanding CAS 53348-05-3 properties: With a melting point of 289-293°C and appearing as a light yellow to brown powder, it offers reliable characteristics for your research and development needs.
- Exploring organic electronic materials precursor applications: This compound is a key building block for materials used in OLEDs, OFETs, and other electronic components.
- Utilizing phenanthrenequinone derivatives for solar cells: Its structural features contribute to the efficiency and performance of organic photovoltaic devices.
Advantages Offered
Enhanced Reactivity
The presence of bromine atoms significantly boosts the compound's reactivity, facilitating complex organic synthesis and enabling the creation of advanced materials.
Versatile Applications
Its utility spans from fine chemical manufacturing in China to being a vital component in the development of organic electronic devices and solar cells.
High Purity Supply
We ensure high purity levels, critical for demanding applications in electronic materials and pharmaceutical research, supporting your efforts in developing novel compounds.
Key Applications
Organic Synthesis
This compound is a cornerstone for intricate organic synthesis, allowing chemists to build complex molecular structures for various applications, especially in creating novel brominated fine chemicals.
Organic Electronics
Its properties make it an ideal precursor for organic electronic materials, contributing to the performance of devices like OLEDs and flexible displays.
Solar Cells
As a derivative of phenanthrenequinone, it plays a role in the development of efficient organic solar cells, contributing to renewable energy solutions.
Optoelectronic Materials
The compound's characteristics are leveraged in the creation of advanced optoelectronic materials for diverse technological applications.