CBP-V
Product Description
CBP-V, scientifically known as 9,9'-([1,1'-Biphenyl]-4,4'-diyl)bis(3-ethenyl-9H-carbazole), is a sophisticated organic compound engineered for applications in the realm of optoelectronics. Its molecular architecture integrates biphenyl and carbazole units, offering enhanced properties such as high electron mobility and excellent thermal stability. These characteristics make CBP-V particularly effective in the development of advanced electronic devices, including those requiring efficient charge transport mechanisms.
Application
CBP-V is primarily employed in the production of OLEDs (Organic Light Emitting Diodes), where it contributes to improved device efficiency and operational lifetime. Additionally, it plays a crucial role in the formulation of organic semiconductors, enhancing the performance of various optoelectronic technologies through its superior electron transport capabilities.
Articles:
- Realizing 22.3% EQE and 7-Fold Lifetime Enhancement in QLEDs via Blending Polymer TFB and Cross-Linkable Small Molecules for a Solvent-Resistant Hole Transport Layer
Publication Date: February 24, 2020
Pengyu Tang, Liming Xie, Xueying Xiong, Changting Wei, Wenchao Zhao, Ming Chen, Jinyong Zhuang, Wenming Su and Zheng Cui
https://doi.org/10.1021/acsami.0c01001
- Inkjet-Printed High-Efficiency Multilayer QLEDs Based on a Novel Crosslinkable Small-Molecule Hole Transport Material
Publication Date: 18 March 2019
Liming Xie, Xueying Xiong, Qiaowen Chang, Xiaolian Chen, Changting Wei, Xia Li, Meng Zhang, Wenming Su, Zheng Cui
https://doi.org/10.1002/smll.201900111
- Constructing Effective Hole Transport Channels in Cross-Linked Hole Transport Layer by Stacking Discotic Molecules for High Performance Deep Blue QLEDs
Publication Date: 02 June 2022
Xinyu Zhang, Dewang Li, Zhenhu Zhang, Hongli Liu, Shirong Wang