DSiCzTrz
Product Description
DSiCzTrz, chemically identified as 9-(4,6-Bis(3-(triphenylsilyl)phenyl)-1,3,5-triazin-2-yl)-9H-carbazole, is a sophisticated organic compound featuring a carbazole core functionalized with triphenylsilyl-substituted phenyl groups via a triazine linker. This unique molecular architecture enhances the compound's electronic properties, making it particularly interesting for applications requiring efficient charge transport and high luminescence. The presence of triphenylsilyl groups not only contributes to the compound's stability but also influences its optical characteristics, making DSiCzTrz a promising candidate for advanced materials research.
Application
DSiCzTrz has significant potential in the development of organic electronic devices, such as organic light-emitting diodes (OLEDs) and organic field-effect transistors (OFETs). Its molecular structure supports efficient charge carrier mobility, which is essential for achieving high device performance. Furthermore, the compound's luminescent properties suggest applications in lighting technology and display screens where high efficiency and color purity are desired. Additionally, the structural rigidity and thermal stability of DSiCzTrz make it suitable for use in sensor technologies, particularly those requiring stable operation under varying environmental conditions.
Articles:
- Extremely superb efficiency and lifetime of deep blue phosphorescent OLEDs by introducing a hypsochromic emissive intermolecular complex (HEIC) with a negligibly small ΔEST and fast reverse intersystem crossing rate
Publication Date: 18 Feb 2021
Ki Ju Kim, Kyo Min Hwang, Hakjun Lee, Sunwoo Kang, Soo-Byung Ko, Min-Sik Eum, Young Kwan Kim and Taekyung Kim
https://doi.org/10.1039/D0TC06107G
- P-126: Magnetic Field Effects on Electroplex-Based Organic Light-Emitting Diodes
Publication Date: 28 June 2022
Ki Ju Kim, Seong Hwan Hong, Hakjun Lee, Kyo Min Hwang, Bubae Park, Young Kwan Kim, Taekyung Kim
https://doi.org/10.1002/sdtp.15799
- Unprecedentedly Long Lifetime Over 13,000 H for Multiple Energy Transfer Channels in Deep Blue Phosphorescence Organic Light-Emitting Diodes with IR Complex Under Ciey of 0.17
Publication Date: 24 Mar 2022
Ki Ju Kim, Hakjun Lee, Sunwoo Kang, Taekyung Kim