20744-11-0Relevant articles and documents
A novel AIE chemosensor based on a coumarin functionalized pillar[5]arene for multi-analyte detection and application in logic gates
Dong, Hong-Qiang,Lin, Qi,Ma, Xiao-Qiang,Wei, Tai-Bao,Yang, Qing-Yu,Yao, Hong,Zhang, Qin-Peng,Zhang, You-Ming,Zhang, Yun-Fei
, p. 10885 - 10891 (2020)
Aggregation induced emission (AIE) active molecules are widely applied for multi-analyte detection due to their unique advantages over conventional fluorescent probes. Herein, a novel coumarin functionalized pillar[5]arene (PX) has been designed and synth
A novel AIE chemosensor based on quinoline functionalized Pillar[5]arene for highly selective and sensitive sequential detection of toxic Hg2+ and CN?
Ma, Xiao-Qiang,Wang, Yun,Wei, Tai-Bao,Qi, Li-Hua,Jiang, Xiao-Mei,Ding, Jin-Dong,Zhu, Wen-Bo,Yao, Hong,Zhang, You-Ming,Lin, Qi
, p. 279 - 286 (2019)
Aggregation-induced emission (AIE) is widely used for fluorescence “on-off-on” detection ions and molecular. Herein, we report a novel AIE chemosensor through self-assembly of quinoline functionalized pillar[5]arene (SPQ5). The SPQ5 can bind with Hg2
Cyanide ion super-molecular sensor as well as synthesis and fluorescence identification cyanide application thereof
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Paragraph 0039-0042, (2021/03/24)
The invention designs and synthesizes a supramolecular sensor SPNHM capable of fluorescently recognizing CN in an aqueous system, and the supramolecular sensor can interact with the CN to form asupramolecular sensor complex, and at the same time, fl
Single-material organic solar cells with fully conjugated electron-donor alkoxy-substituted bithiophene units and electron-acceptor benzothiadiazole moieties alternating in the main chain
Di Maria, Francesca,Lanzi, Massimiliano,Liscio, Andrea,Marinelli, Martina,Salatelli, Elisabetta,Zanelli, Alberto,Zangoli, Mattia
supporting information, p. 4124 - 4132 (2020/04/15)
Main chain conjugated linear polymers, constituted by alternating electron-donor (D) and-acceptor (A) moieties, have been prepared with the aim of testing their performances as photoactive components in single material organic solar cells (SMOSCs). The D moiety is constituted by bithiophene co-units bearing in position 3 of the thiophene ring a hexyloxy, a hexyloxymethyl or a hexyl group, while the A moiety is represented by the benzothiadiazole group. The D-A polymers were obtained in high yield through the poorly demanding oxidative FeCl3 polymerization process-starting, respectively, from the related precursors 4,7-bis(3-hexyloxythiophen-2-yl)benzo[c][2,1,3]thiadiazole, 4,7-bis[3-(6-methoxyhexyl)thiophen-2-yl]benzo[c][2,1,3]thiadiazole and 4,7-bis(3-hexylthiophen-2-yl)benzo[c][2,1,3]thiadiazole-with low dispersity indexes, close to the monodisperse state, after fractionation with methanol. The materials have been thoroughly characterized for their physical and structural properties and then tested for photoconversion efficiency in SMOSCs by using different deposition procedures of the photoactive component. In agreement with Kelvin probe force microscopy (KPFM) measurements, the best photovoltaic performance was observed for the polymer based on conjugated 3-alkoxythiophene and benzothiadiazole moieties, achieving significant photocurrents for this type of fully conjugated alternating D-A structure (Jsc = 2.63-3.72 mA cm-2).