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Yunchen Du
Researcher at Harbin Institute of Technology
Publications - 164
Citations - 13104
Yunchen Du is an academic researcher from Harbin Institute of Technology. The author has contributed to research in topics: Catalysis & Reflection loss. The author has an hindex of 48, co-authored 134 publications receiving 8396 citations. Previous affiliations of Yunchen Du include Chinese Ministry of Education.
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Fabrication of PPy Nanosphere/rGO Composites via a Facile Self-Assembly Strategy for Durable Microwave Absorption
TL;DR: Electromagnetic analysis reveals that well-matched characteristic impedance, multiple polarization loss, and good conductivity loss are, together, responsible for the excellent microwave absorption performance of PPy/rGO-0.6.
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Development of 3-dimensional Co3O4 catalysts with various morphologies for activation of Oxone to degrade 5-sulfosalicylic acid in water
TL;DR: The catalytic activities of Co3O4 catalysts can be correlated to physical and chemical properties which were associated with particular morphologies to provide insights into design of 3D Co2+ and more reactive surface catalysts for OX-based technology to degrade emerging contaminants, such as SFA.
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In-situ interstitial zinc doping-mediated efficient charge separation for ZnIn2S4 nanosheets visible-light photocatalysts towards optimized overall water splitting
TL;DR: In this article , an ultrathin ZnIn2S4 nanosheets with in-situ interstitial zinc doping and short-range disordered structure (dZni-ZIS) by one-step solvothermal method with magnetic stirring, which can realize overall water splitting without cocatalysts under visible light irradiation.
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Surface reconstruction of phosphorus-doped cobalt molybdate microarrays in electrochemical water splitting
TL;DR: In this article , the surface reconstruction of P-CoMoO 4 is witnessed and carefully investigated, which is converted into Co(OH) 2 -CoMoOs 4 /P-CoOO 4 during the hydrogen evolution reaction (HER) process, and into CoOOH/P-coMoO4 during the oxygen evolution reaction(OER) process.
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Superhydrophobic Ag nanostructures on polyaniline membranes with strong SERS enhancement
TL;DR: It is calculated that the as-fabricated superhydrophobic substrate can exhibit a 21-fold stronger molecular condensation, and thus further amplifies the SERS signal to achieve more sensitive detection.