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Yongqing Bai
Researcher at Yangzhou University
Publications - 18
Citations - 248
Yongqing Bai is an academic researcher from Yangzhou University. The author has contributed to research in topics: Ion & Chemistry. The author has an hindex of 4, co-authored 11 publications receiving 79 citations.
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Journal ArticleDOI
Hollow dodecahedral Co3S4@NiO derived from ZIF-67 for supercapacitor
Shuangyue Hou,Yue Lian,Yongqing Bai,Qiuping Zhou,Chaolei Ban,Zhifeng Wang,Jing Zhao,Huaihao Zhang +7 more
TL;DR: In this article, a rhombohedral dodecahedral composite Co3S4@NiO for supercapacitors is presented, which exposes more active sites, promotes free diffusion of electrolytes, shortens the path of electron transfer in electrochemical reaction process, and improves the capacitance performance.
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Nb2O5 quantum dots coated with biomass carbon for ultra-stable lithium-ion supercapacitors
TL;DR: In this paper, high dispersal quantum dots are prepared by strong associated reaction of amino acids (egg white) and metal cations (Nb5+), which can effectively avoid the aggregation of Nb2O5 quantum dots and adjust the mechanical stress caused by volume change.
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Multilayer dodecahedrons Zn-Co sulfide for supercapacitors
Jing Zhao,Shuangyue Hou,Yongqing Bai,Yue Lian,Qiuping Zhou,Chaolei Ban,Zhifeng Wang,Huaihao Zhang +7 more
TL;DR: In this paper, the double-layer hollow composite sulfide is used as a sacrificial template for two-layer transition metal sulfide (ZnCoS) for supercapacitors.
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Oxygen defected T-Nb2O5-x confined in necklace-like N-doped carbon fibers for Li+/Na+ capacitor
Yue Lian,Yujing Zheng,Yongqing Bai,Dawei Wang,Haishui Yan,Zhifeng Wang,Jing Zhao,Huaihao Zhang +7 more
TL;DR: In this paper, a Necklace-like T-Nb2O5-x@NC assembled by Yolk-shell nanosphere is applied for self-supporting anode of the Li+/Na+ capacitor.
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Ultrafast and stable ion/electron transport of MnNb2O6 in LIC/SC via interface protection and lattice defects
Yue Lian,Yujing Zheng,Dawei Wang,Yongqing Bai,Haishui Yan,Zhifeng Wang,Jing Zhao,Huaihao Zhang +7 more
TL;DR: In this paper, ultrathin amorphous carbon shells and lattice defects (heteroatoms and vacancies) are introduced into the MnNb2O6 nanofiber surface to improve the electron/ion kinetic stability, conductivity and electrochemical activity.