K
Ke Ye
Researcher at Harbin Engineering University
Publications - 272
Citations - 9555
Ke Ye is an academic researcher from Harbin Engineering University. The author has contributed to research in topics: Electrode & Anode. The author has an hindex of 41, co-authored 251 publications receiving 5697 citations. Previous affiliations of Ke Ye include Dalian Institute of Chemical Physics.
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Ternary Transition Metal Sulfides Embedded in Graphene Nanosheets as Both the Anode and Cathode for High-Performance Asymmetric Supercapacitors
TL;DR: In this article, aqueous asymmetric supercapacitor was fabricated with the GCFS-0.33Fe0.67S2 composite, which exhibits a high specific capacitance (310.2 C g−1 at 2 mV s−1) and superb rate capability (61.8% at 200 mv s −1) in 3 M KOH electrolyte.
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Creating oxygen-vacancies in MoO3-x nanobelts toward high volumetric energy-density asymmetric supercapacitors with long lifespan
TL;DR: In this article, an asymmetric supercapacitor with the GC/MoO3-x and GC/MnO2 nanocomposites as anode and cathode, respectively, exhibits an ultrahigh energy of 150'Wh'kg−1, corresponding to an impressive volumetric energy density of 319'Wh´L−1.
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In Situ Reconstruction of a Hierarchical Sn-Cu/SnOx Core/Shell Catalyst for High-Performance CO2 Electroreduction.
Ke Ye,Ke Ye,Zhiwen Zhou,Zhiwen Zhou,Jiaqi Shao,Jiaqi Shao,Long Lin,Long Lin,Dunfeng Gao,Na Ta,Rui Si,Guoxiong Wang,Xinhe Bao +12 more
TL;DR: Density functional theory calculations indicate that the in situ reconstructed Sn/SnO x interface facilitates formic acid production by optimizing the binding of the reaction intermediate HCOO* while promotes Faradaic efficiency of C 1 products by suppressing the competitive hydrogen evolution reaction, resulting in high FaradaIC efficiency, current density and stability of CO 2 RR at low overpotentials.
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High-Capacity and Kinetically Accelerated Lithium Storage in MoO3 Enabled by Oxygen Vacancies and Heterostructure
Yingying Zhang,Peng Chen,Qingyu Wang,Qian Wang,Kai Zhu,Ke Ye,Guiling Wang,Dianxue Cao,Jun Yan,Qiang Zhang +9 more
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MXene-derived TiO2/reduced graphene oxide composite with an enhanced capacitive capacity for Li-ion and K-ion batteries
Yongzheng Fang,Rong Hu,Boya Liu,Yingying Zhang,Kai Zhu,Jun Yan,Ke Ye,Kui Cheng,Guiling Wang,Dianxue Cao +9 more
TL;DR: In this paper, a two-dimensional TiO2/reduced graphene oxide (RGO) composite was prepared by a facile hydrothermal method, and the electrochemical kinetics of Li/K-ion storage was investigated by quantitative kinetics analysis.