N-phenyldibenzo[b,d]furan-4-amine: Powering the Future of Organic Electronics
Unlock next-generation display and device performance with this key organic electronic material.
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N-phenyldibenzo[b,d]furan-4-amine
N-phenyldibenzo[b,d]furan-4-amine (CAS 743453-07-8) is a high-purity organic compound essential for the advancement of organic electronic devices. Its molecular structure and chemical properties make it an invaluable intermediate in the synthesis of cutting-edge materials for OLED light-emitting host layers, transmission layers, barrier layers, and cover layers. This compound plays a critical role in achieving superior performance and durability in modern electronic displays and devices, supporting the development of advanced photoelectric materials.
- High purity ensures reliable performance in OLED device fabrication, utilizing the properties of advanced photoelectric materials.
- Acts as a crucial synthetic intermediate for OFET applications, contributing to the field of organic semiconductor intermediates.
- Facilitates the development of efficient OPV materials through robust organic material intermediates for OFET/OPV.
- The compound's characteristics support the creation of stable and high-performing organic electronic devices.
Advantages Offered by the Product
Enhanced Device Efficiency
Leverage the benefits of N-phenyldibenzo[b,d]furan-4-amine CAS 743453-07-8 to significantly improve the efficiency and brightness of OLED displays, a key aspect of OLED materials.
Material Versatility
This compound serves as a versatile building block for a range of organic electronics, including OFETs and OPVs, underscoring its role in organic semiconductor intermediates.
Superior Purity Standards
With a minimum purity of 97%, it guarantees consistent and predictable results in complex synthesis processes for advanced photoelectric material precursors.
Key Applications
OLED Host Materials
Essential for creating stable and efficient light-emitting layers in OLED displays, contributing to the development of high-performance OLED materials.
OFET Synthesis
Serves as a key intermediate for fabricating Organic Field-Effect Transistors, advancing the field of organic semiconductor intermediates.
OPV Material Development
A vital component in the synthesis of materials for Organic Photovoltaics, supporting innovations in renewable energy through organic material intermediates for OFET/OPV.
Photoelectric Material Precursors
Utilized in the creation of next-generation photoelectric devices, benefiting from its properties as one of the advanced photoelectric material precursors.