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Xiaoming Sun
Researcher at Beijing University of Chemical Technology
Publications - 424
Citations - 56598
Xiaoming Sun is an academic researcher from Beijing University of Chemical Technology. The author has contributed to research in topics: Catalysis & Oxygen evolution. The author has an hindex of 96, co-authored 382 publications receiving 47153 citations. Previous affiliations of Xiaoming Sun include Tsinghua University & University of Stuttgart.
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A hierarchical Ni–Co–O@Ni–Co–S nanoarray as an advanced oxygen evolution reaction electrode
TL;DR: An effective method for fabricating a Ni- co-O@Ni-Co-S hierarchical nanoarray is reported, which showed a significantly improved activity relative to Ni- Co-O nanowire arrays for oxygen evolution reactions.
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Cerium vanadate nanorod arrays from ionic chelator-mediated self-assembly
TL;DR: 1D CeVO4 nanorod (NR) arrays in very salty aqueous solution from self-assembly under direction of an ionic multidentate ligand “glue”, EDTA, provides a new model for 1D nanostructure assembly and might lead to new directions for superstructure construction.
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Hierarchical cobalt oxide@Nickel-vanadium layer double hydroxide core/shell nanowire arrays with enhanced areal specific capacity for nickel–zinc batteries
Shiyuan Wang,Shibin Lai,Pengsong Li,Tengfei Gao,Kai Sun,Xiaotao Ding,Tianhui Xie,Chuan Wu,Xuejin Li,Yun Kuang,Wen Liu,Weimin Yang,Xiaoming Sun +12 more
TL;DR: In this paper, a well-aligned hierarchical nanowires array was proposed as an advanced cathode for Nickel-Zinc batteries, which is composed of Nickel-vanadium layered double hydroxide decorated on cobalt oxide with a core/sheath configuration featuring merits of high electrical conductivity, large specific surface area, and short diffusion pathway for ions and electrons.
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Amorphous Co–Mo–S ultrathin films with low-temperature sulfurization as high-performance electrocatalysts for the hydrogen evolution reaction
TL;DR: An amorphous CoMo-S ultrathin film fabricated via low-temperature sulfurization, with rich defects, hierarchical structuring and transition metal doping, shows excellent HER performance and good working stability in acidic media as mentioned in this paper.
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Boosting the bifunctional electrocatalytic oxygen activities of CoOx nanoarrays with a porous N-doped carbon coating and their application in Zn–air batteries
TL;DR: In this paper, the authors developed an alternative strategy to prepare a novel bifunctional catalyst by coating three-dimensional CoOx nanoarrays with a porous nitrogen-doped carbon layer (NC).