光谱学与光谱分析 |
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Research on Synthesis and Luminous Mechanism of a Soluble Blue-Light Luminescence Material Derived from Carbazole |
LI Juan1, 2, WANG Hua1, 2, SONG Chun-li1, 2, ZHANG Cun1, 2, ZHANG Jun-ping1, 2, HAO Yu-ying1, 3, XU Bing-she1, 2* |
1. Key Laboratory of Interface Science and Engineering in Advanced Materials, Ministry of Education, Taiyuan University of Technology, Taiyuan 030024, China 2. Research Center of Advanced Materials Science and Technology, Taiyuan University of Technology, Taiyuan 030024, China 3. College of Science, Taiyuan University of Technology, Taiyuan 030024, China |
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Abstract In the present paper, a kind of blue light-emitting organic small molecule luminescent materials was designed and synthesized, which is composed of carbazole and 8-benzyloxyquinoline functional groups. Alkyl chain can effectively play the role of electron transfer barrier. The synthesis principle was on the basis of the mechanisms of SN1nucleophilic reaction and SUZUKI coupling reaction mechanisms. It is entitled N-[6-(8-benzylquinoline)-hexyl] carbazole (CZBQ). Its molecular structure was simulated and optimized by Gaussian03. Its chemical structure was identified by measurements of ultraviolet-visible spectra and H1 NMR spectra. It photo physical property was characterized by method of fluorescence spectra. t is indicated that CZBQ was a kind of blue-light luminescence material and its optical band gap is 3.02 eV. Ethanol solution of CZBQ exhibits the maximal emission peak at 410 nm in photoluminescence spectra. In the luminescence process of CZBQ, carbazole groups and 8-benzylquinoline groups were separately involved in excitation and light emission. This kind of blue-light luminescence material possesses excellent solubility, It can be dissolved in different solvents such as ethanol and ethyl acetate and dichloromethane. The test results of AFM show that CZBQ was provided with very good film formability. It is expected to be utilized in blue-light organic light-emitting device fabricated by wet method such as spin-coding method and screen printing.
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Received: 2010-10-15
Accepted: 2011-03-02
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Corresponding Authors:
XU Bing-she
E-mail: xubs@tyut.edu.cn
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[1] Won Hoe Koo, Soon Moon Jeong, Fumito Araoka, et al. Nature Photonics, 2010, 5(4): 236. [2] van Mensfoort S L M, Carvelli M, Megens M, et al. Nature Photonics, 2010, 5(4): 222. [3] Michael M Rothmann, Stephan Haneder, Enrico Da Como, et al. Chem. Mater., 2010, 22: 2403. [4] Bhansali U S,Jia H P, Lopez M A Q, et al. Appl. Phys. Lett.,2009,94:203501. [5] Wang Hua, Xu Bingshe, Liu Xuguang, et al. Organic Electronics,2009,10:918. [6] XU Hui-xia, CHEN Liu-qing, MENG Wei-xin, et al(许慧侠, 陈柳青, 孟维新, 等). Chinese Journal of Luminescence(发光学报),2010,31(4):269. [7] Ana Claudia Arias, MacKenzie J Devin, Iain McCulloch, et al. Chem. Rev., 2010, 110: 3. [8] Taeshik Earmme, Eilaf Ahmed, Samson A Jenekhe. J. Phys. Chem. C,2009,113:18448. [9] Jiang Peng, Zhu Wenqing, Gan Zhengyu, et al. J. Mater. Chem., 2009,19:4551. [10] Andrew B Lowe, Charles L McCormick. Progress in Polymer Science,2007,32(3):283. [11] Gu Xin, Zhang Houyu, Fei Teng, et al. J. Phys. Chem. A,2010,114:965. [12] Han Won-Sik, Son Ho-Jin, Wee Kyung-Ryang, et al. J. Phys. Chem. C,2009,113:19686. [13] Gnacio Herna′ndez, William P Gillin. J. Phys. Chem. B,2009,113:14079. [14] Tan gui Le Bahers, Carlo Adamo, Ilaria Ciofini. J. Phys. Chem. A,2010,114:5932. [15] Wang Lei, Jiang Yang, Luo Jia, et al. Adv. Mater.,2009,21:4854. [16] Piotr Matyba, Hisato Yama gu chi, Goki Eda, et al. Nano, 2010, 4: 637. [17] Nakano Y, Imai D. Synthesis,1997,12:1425. [18] Victor A Montes, Radek Pohl, Joseph Shinar, et al. Chem. Eur. J.,2006,12:4523. [19] Song Peng, Ma Fengcai. J. Phys. Chem. A,2010,114:2230. [20] Li Huiying, Zhang Changhai, Li Dechang, et al. Journal of Luminescence,2007,122-123:626. [21] Solon P Economopoulos, Christos L Chochos, Vasilis G Gregoriou, et al. Macromolecules, 2007,40(4):921. [22] Danel K S, Gasiorski P, Matusiewicz M, et al. Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy,2010,77(9):16. [23] Puodziukynaite E, Burbulis E, Grazulevicius J V, et al. Synthetic Metals,2008,158(12):993. [24] Blouin N, Michaud A, Leclerc M. Advanced Materials,2007,19(9):2295. [25] Yuichiro Kawamura, Kenichi Goushi, Jason Brooks, et al. Appl. Phys. Lett.,2005,86:1862777. [26] Martin F Schubert, Xu Jiuru, Kim Jongkyu, Schubert E Fred, et al. Appl. Phys. Lett.,2007,90:231114. [27] Hee Jin Kim, Suk Choi, Seong-Soo Kim, . Appl. Phys. Lett.,2010,96:183507. [28] Mykhaylo Yu, Losytskyy, Valeriy M Yashchuk. Springer Series on Fluorescence, 2010,9(2):135. |
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