11 Papers
88 Citations
Yulin Zhang is an academic researcher from East China University of Science and Technology. The author has contributed to research in topics: Chemistry & Catalysis. The author has an hindex of 5, co-authored 5 publications.
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Papers
A colorimetric and ratiometric NIR fluorescent turn-on fluoride chemodosimeter based on BODIPY derivatives: high selectivity via specific Si–O cleavage
TL;DR: A colorimetric and fluorescent turn-on chemodosimeter for fluoride with high selectivity was developed on the basis of specific reaction of F− with BODIPY-OSi, displaying a dramatic color change and distinct near-infrared (NIR) fluorescence enhancement at 676 nm.
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Development of a borondipyrromethene-based Zn2+ fluorescent probe: solvent effects on modulation sensing ability
TL;DR: A borondipyrromethene-based Zn(2+) fluorescent probe BODPAQ was designed and synthesized, enabling the detection of Zn (2+) by both ratiometric and normal turn-on fluorescence methods in acetonitrile.
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Borondipyrromethene-derived Cu2+ sensing chemodosimeter for fast and selective detection
Chunchang Zhao,Peng Feng,Jian Cao,Xuzhe Wang,Yang Yang,Yulin Zhang,Jinxing Zhang,Yanfen Zhang +7 more
TL;DR: A new Cu(2+)-selective fluorescent turn-on probe BODIPY-EP, in which the 2-pyridinecarboxylic acid is connected to a 6-hydroxyindole-based B ODIPY platform through an ester linkage, which demonstrates fast response, large fluorescence enhancement and high selectivity.
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6-Hydroxyindole-based borondipyrromethene: Synthesis and spectroscopic studies
Chunchang Zhao,Peng Feng,Jian Cao,Yulin Zhang,Xuzhe Wang,Yang Yang,Yanfen Zhang,Jinxin Zhang +7 more
TL;DR: It is found that the light-color of the fluorophore can be tuned over a wide range by changing the polarity of solvent/base combinations, and the absorption color of the solution can be tuning over a range of 100 nm.
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Metal-Organic-Framework-derived Cobalt-Vanadium Oxides with Tunable Compositions for High-Performance Aqueous Zinc-ion Batteries
TL;DR: In this paper , a dissolution-regrowth and conversion strategy is developed by using metal-organic framework template, which facilitates in situ formation of CoVOx oxide with porous one-dimensional channels and unique nanostructures.
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