Bathocuproine: A High-Purity Heterocyclic Compound for Advanced Organic Electronics
Discover the key properties and applications of Bathocuproine, essential for next-generation organic electronic devices.
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Bathocuproine
Bathocuproine (CAS 4733-39-5) is a critical organic electronic material, prized for its role as an efficient electron transporter and hole blocker in Organic Light-Emitting Diodes (OLEDs). Its unique chemical structure allows it to significantly enhance the performance and stability of various electronic devices, particularly in the realm of organic photovoltaics and solar cells. This compound is a high-purity heterocyclic molecule, essential for achieving optimal device function and longevity.
- Functionality as an OLED electron transporter and hole blocker: Bathocuproine facilitates efficient charge movement within OLEDs, crucial for high-performance displays and lighting.
- Enhancing organic photovoltaic efficiency: As a buffer layer in polymer organic solar cells, it plays a vital role in improving the power conversion efficiency (PCE) by optimizing charge extraction and reducing recombination.
- Understanding CAS 4733-39-5 chemical properties: With a molecular formula of C26H20N2 and a molecular weight of 360.45, Bathocuproine exhibits high electron affinity, making it ideal for its specific electronic roles.
- The importance of heterocyclic compounds in electronics: This class of compounds offers unique electronic and photophysical properties, making them indispensable for advanced material science and electronic applications.
Product Advantages
Enhanced Device Performance
The strategic use of Bathocuproine as an electron transporter and hole blocker directly translates to improved performance metrics in OLEDs, such as higher brightness and efficiency, supporting the demand for high purity Bathocuproine in sensitive applications.
Improved Solar Cell Efficiency
When incorporated as a buffer layer in organic solar cells, Bathocuproine aids in optimizing the charge transfer processes, leading to a more efficient conversion of sunlight into electricity, a key aspect for the growth of organic photovoltaic additives.
Material Purity and Consistency
Ensuring the purity of materials like Bathocuproine is paramount in scientific research and advanced manufacturing. Sourcing high purity Bathocuproine guarantees predictable and reliable results in complex electronic fabrication processes.
Key Applications
OLED Technology
Bathocuproine serves as an essential electron transporter and hole blocking layer in the fabrication of Organic Light-Emitting Diodes (OLEDs), contributing to their efficiency and operational lifespan.
Organic Photovoltaics (OPVs)
It is utilized as a buffer layer in polymer organic solar cells, effectively improving the power conversion efficiency and stability of these renewable energy devices.
Research and Development
As a well-characterized chemical intermediate, Bathocuproine is widely used in scientific research to explore new electronic material functionalities and device architectures.
Advanced Material Synthesis
The compound's role in enhancing charge transport properties makes it a valuable component in the development of next-generation electronic materials and devices.