N,N,N'-Triphenyl-4,4'-bianiline: Powering the Future of Electronics
Discover the high-purity organic material driving innovation in OLED and photoelectric technologies.
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N,N,N'-Triphenyl-4,4'-bianiline
N,N,N'-Triphenyl-4,4'-bianiline, identified by CAS number 167218-30-6, is a premium organic compound essential for advanced electronic applications. Its molecular formula C30H24N2 and molecular weight of 412.52 underscore its complex structure, which is critical for its performance in optoelectronic devices. As a key component in OLED displays and other photoelectric systems, this material plays a vital role in enabling efficient charge transport and injection, leading to superior device performance.
- N,N,N'-Triphenyl-4,4'-bianiline CAS 167218-30-6: This high purity organic material is a cornerstone for next-generation electronic devices.
- OLED Materials: Essential for the creation of vibrant and efficient organic light-emitting diodes, contributing to display technology advancements.
- Charge Transport Layer Precursor: Its unique properties make it an ideal precursor for developing effective charge transport layers in electronic components.
- Hole Injection Layer Compound: Facilitates efficient hole injection, a critical step in the operation of many organic electronic devices.
Key Advantages
Uncompromising Purity
As an electronic chemicals manufacturer, we ensure the highest purity levels for N,N,N'-Triphenyl-4,4'-bianiline, critical for optimal device performance and longevity.
Versatile Application
This material is a vital part of OLED materials and other organic electronic systems, enabling breakthroughs in display and lighting technologies.
Reliable Supply Chain
Our role as an organic electronic material supplier guarantees a consistent and dependable source of this essential compound for your research and production needs.
Key Applications
OLED Technology
Utilized in the fabrication of Organic Light-Emitting Diodes for displays and lighting, enhancing efficiency and color quality with its excellent charge transport layer properties.
Photoelectric Devices
Serves as a crucial element in various photoelectric applications, contributing to the development of advanced light-sensing and light-emitting technologies.
Organic Semiconductors
Its semiconductor properties make it a valuable component in the research and development of next-generation organic semiconductors for flexible electronics.
Electronic Intermediates
As a key electronic chemicals intermediate, it facilitates the synthesis of more complex materials used in high-performance electronic devices.