High-Purity Boronic Ester Derivative for Advanced OLED Applications
Unlock the potential of next-generation displays with our precisely engineered OLED intermediate.
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![2-Phenyl-1-[4-(4,4,5,5-tetraMethyl-[1,3,2]dioxaborolan-2-yl)-phenyl]-1H-benzoiMidazole](https://www.nbinno.com/2025/webimg/gemini_688dd25ec1b10_1754124894.png)
2-Phenyl-1-[4-(4,4,5,5-tetraMethyl-[1,3,2]dioxaborolan-2-yl)-phenyl]-1H-benzoiMidazole
This high-purity benzimidazole derivative, CAS 1169709-19-6, is a critical component for advancing OLED technology and electronic devices. Its molecular structure is meticulously designed to facilitate efficient charge transport and light emission, making it an indispensable building block in the synthesis of advanced OLED materials.
- Leverage our advanced OLED material synthesis capabilities with this high-purity intermediate, ensuring superior performance in your display technologies.
- Discover the versatility of boronic ester derivatives for OLED applications, enabling novel device architectures and improved efficiency.
- Utilize this precisely engineered benzimidazole derivative for electronic devices, a key for next-generation optoelectronic components.
- Source this vital OLED electronic chemicals CAS 1169709-19-6 for reliable and consistent results in your research and production.
Product Advantages
Enhanced Device Performance
The specific molecular design of this compound contributes to improved charge mobility and luminescence efficiency, directly impacting the quality of your electronic devices.
Synthesis Versatility
As a key building block in OLED material synthesis, its reactive boronic ester group allows for diverse coupling reactions, opening up avenues for new material development.
Assured Purity and Quality
Supplied with high purity, this high purity OLED intermediate guarantees reproducible results and reliable performance in demanding electronic applications.
Key Applications
OLED Displays
Essential for manufacturing vibrant and efficient Organic Light-Emitting Diode displays, contributing to superior color reproduction and longevity.
Organic Electronics
Serves as a crucial precursor in the development of various organic electronic components, including transistors and solar cells, leveraging its unique electronic properties.
Advanced Material Research
A valuable tool for researchers exploring novel organic semiconductors and optoelectronic materials, facilitating the creation of cutting-edge electronic devices.
Specialty Chemical Synthesis
Acts as a versatile intermediate in complex organic synthesis pathways, particularly where precise functionalization with boronic ester groups is required.