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Yi Wang
Researcher at Chongqing Normal University
Publications - 60
Citations - 4075
Yi Wang is an academic researcher from Chongqing Normal University. The author has contributed to research in topics: Nanoparticle & Chemistry. The author has an hindex of 28, co-authored 53 publications receiving 3349 citations. Previous affiliations of Yi Wang include Southwest University & The Wallace H. Coulter Department of Biomedical Engineering.
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25th Anniversary Article: Galvanic Replacement: A Simple and Versatile Route to Hollow Nanostructures with Tunable and Well-Controlled Properties
TL;DR: A progress report on the use of galvanic replacement for generating complex hollow nanostructures with tunable and well-controlled properties and its capability to fabricate nanomaterials with complex structures and/or compositions by coupling with other processes such as co-reduction and the Kirkendall effect.
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Highly selective detection of phosphate in very complicated matrixes with an off–on fluorescent probe of europium-adjusted carbon dots
TL;DR: A simple method for phosphate (Pi) detection is established by developing an off-on fluorescence probe of europium-adjusted carbon dots (CDs), which has been successfully applied to the detection of Pi in very complicated matrixes such as artificial wetlands system.
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Synthesis of Ag nanocubes 18-32 nm in edge length: the effects of polyol on reduction kinetics, size control, and reproducibility.
TL;DR: The results suggest that the high sensitivity of synthesis outcomes to the trace amounts of impurities in a polyol, a major issue for reproducibility and scale up synthesis, did not exist in the present system.
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Polyol Synthesis of Ultrathin Pd Nanowires via Attachment-Based Growth and Their Enhanced Activity towards Formic Acid Oxidation
Yi Wang,Yi Wang,Sang-Il Choi,Xin Zhao,Shuifen Xie,Hsin-Chieh Peng,Miaofang Chi,Cheng Zhi Huang,Younan Xia,Younan Xia +9 more
TL;DR: In this article, the polyol method was used to synthesize ultrathin nanowires with a wavy morphology, which showed a catalytic current density of 2.5 times higher than the conventional Pd/C catalyst towards formic acid oxidation.
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Use of reduction rate as a quantitative knob for controlling the twin structure and shape of palladium nanocrystals
TL;DR: It is demonstrated that kinetic parameters, including rate constant and activation energy, can be derived from spectroscopic measurements and then used to calculate the initial reduction rate and further have this parameter quantitatively correlated with the twin structure of a seed and nanocrystal.