Q
Qi-Qi Fu
Researcher at University of Science and Technology of China
Publications - 8
Citations - 1498
Qi-Qi Fu is an academic researcher from University of Science and Technology of China. The author has contributed to research in topics: Catalysis & Overpotential. The author has an hindex of 7, co-authored 8 publications receiving 946 citations.
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Journal ArticleDOI
Ni–Mo–O nanorod-derived composite catalysts for efficient alkaline water-to-hydrogen conversion via urea electrolysis
TL;DR: In this paper, a porous rod-like NiMoO4 with high oxidation states of the metal elements enabling highly efficient UOR electrocatalysis, which can be readily produced through annealing solid NiMo4·xH2O as a starting precursor in Ar. This precursor gives the derived Ni/NiO/MoOx nanocomposite when switching the shielding gas from Ar to H2/Ar, exhibiting platinum-like activity for the hydrogen evolution reaction in alkaline electrolytes.
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Scaled-Up Synthesis of Amorphous NiFeMo Oxides and Their Rapid Surface Reconstruction for Superior Oxygen Evolution Catalysis.
Yu Duan,Zi-You Yu,Shaojin Hu,Xusheng Zheng,Chu-Tian Zhang,Hong-He Ding,Bi-Cheng Hu,Qi-Qi Fu,Zhi-Long Yu,Xiao Zheng,Junfa Zhu,Min-Rui Gao,Shu-Hong Yu +12 more
TL;DR: This work reports the first scalable synthesis of amorphous NiFeMo oxide (up to 515 grams one batch) with homogeneous elemental distribution via a facile supersaturated co-precipitation method, which opens up the potential of fast, facile and scale-up production ofAmorphous metal oxides for high-performance OER catalysts.
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Synthesis of Low Pt-Based Quaternary PtPdRuTe Nanotubes with Optimized Incorporation of Pd for Enhanced Electrocatalytic Activity
TL;DR: The optimized incorporation of Pd atoms into ternary PtRuTe NTs formed a uniform protecting PtPd surface and modified the Pt electronic structure to improve the methanol oxidation reaction (MOR) performance.
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Scalable Bromide-Triggered Synthesis of Pd@Pt Core-Shell Ultrathin Nanowires with Enhanced Electrocatalytic Performance toward Oxygen Reduction Reaction.
TL;DR: This article reports a novel scalable method to prepare ultrathin and uniform Pd@Pt nanowires (NWs) with controllable composition and shell thickness, high aspect ratio, and smooth surface, triggered by bromide ions via a galvanic replacement reaction between PtCl6(2-) and Pd NWs.
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Highly crystalline PtCu nanotubes with three dimensional molecular accessible and restructured surface for efficient catalysis
TL;DR: In this paper, a mixed solvent strategy was used to prepare a highly active and durable class of electrocatalysts with connected single crystalline nanoparticles (NPs), forming an open architecture.