- Electrochromic properties of pyrene conductive polymers modified by chemical polymerization
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Pyrene is composed of four benzene rings and has a unique planar melting ring structure. Pyrene is the smallest condensed polycyclic aromatic hydrocarbon, and its unique structural properties have been extensively studied. Pyrene has excellent properties such as thermal stability, high fluorescence quantum efficiency and high carrier mobility. This paper mainly used thiophene, EDOT and triphenylamine groups to enhance the pyrene based π-conjugated system and control the molecular accumulation of organic semiconductors, and improve their charge transport performances. Five kinds of polymer were synthesized and correspondingly characterized. The five kinds of pyrene conductive polymer had outstanding properties in terms of solubility, fluorescence intensity and thermal stability, good film-forming properties, stable electrochromic properties and high coloring efficiency. The coloration efficiency (CE) of PPYTP was as high as 277 cm2C?1, and the switching response time was short. The coloring time of PPYEDOT was 1.3 s and the bleaching time was 3.2 s. The lower impedance will also provide the possibility of such polymers being incorporated into electrochromic devices in the future. In short, the synthesized new pyrene conductive polymers will have wide application prospects in the field of electrochromic materials.
- Chang, Lijing,Hou, Yanjun,Li, Rui,Ma, Yang,Miao, Shoulei,Wang, Cheng,Xu, Haoran,Zhang, Yuhang
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p. 39291 - 39305
(2021/12/27)
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- Covalent organic framework material Py-COF and preparation method thereof
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The invention discloses a covalent organic framework material Py-COF and a preparation method thereof. The covalent organic framework material Py-COF is of a structure shown by a formula (IV) as shownin the description; the covalent organic framework material Py-COF provided by the invention can be successfully prepared in various single organic solvents, and the problem of strong dependence of the covalent organic framework on a synthetic solvent is solved. In addition, the invention also provides a method for constructing the covalent organic framework material, and therefore, the inventionpromotes the rapid development and scale-up applications of covalent organic framework materials.
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Paragraph 0039-0042; 0048
(2019/07/29)
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- De Novo Design and Facile Synthesis of 2D Covalent Organic Frameworks: A Two-in-One Strategy
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We herein develop a two-in-one molecular design strategy for facile synthesis of 2D imine based covalent organic frameworks (COFs). The integration of two different functional groups (i.e., formyl and amino groups) in one simple pyrene molecule affords a bifunctional building block: 1,6-bis(4-formylphenyl)-3,8-bis(4-aminophenyl)pyrene (BFBAPy). Highly crystalline and porous Py-COFs can be easily prepared by the self-condensation of BFBAPy in various solvents, such as CH2Cl2, CHCl3, tetrahydrofuran, methanol, ethanol, acetonitrile, and dimethylacetamide, etc. The current work, to the best of our knowledge, is a rare case of COF synthesis that exhibits excellent solvent adaptability. Highly crystalline Py-COF thin films have been facilely fabricated on various substrates and exhibit potential applications in hole transporting layers for perovskite solar cells. Furthermore, the versatility of this two-in-one strategy was also verified by two additional examples. The current work dramatically reduces the difficulty of COF synthesis, and such two-in-one strategy is anticipated to be applicable for the synthesis of other COFs constructed by different building blocks and linkages.
- Li, Yusen,Chen, Qing,Xu, Tiantian,Xie, Zhen,Liu, Jingjuan,Yu, Xiang,Ma, Shengqian,Qin, Tianshi,Chen, Long
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supporting information
p. 13822 - 13828
(2019/09/30)
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- Organic light-emitting material and device containing pyrene structure
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The invention provides an organic light-emitting material and device containing pyrene structure and belongs to the technical field of organic light-emitting materials. The organic light-emitting material containing pyrene structure contains pyrene ring s
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