R
Riyue Ge
Researcher at Shanghai University
Publications - 33
Citations - 883
Riyue Ge is an academic researcher from Shanghai University. The author has contributed to research in topics: Catalysis & Chemistry. The author has an hindex of 10, co-authored 19 publications receiving 357 citations. Previous affiliations of Riyue Ge include Shanghai Institute of Technology.
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Hierarchical molybdenum phosphide coupled with carbon as a whole pH-range electrocatalyst for hydrogen evolution reaction
TL;DR: In this article, a SiO2-template-assisted strategy was used to synthesize 3D molybdenum phosphide nanoparticles for water electrolysis hydrogen generation through hydrogen evolution reaction (HER).
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Surface and Interface Engineering: Molybdenum Carbide–Based Nanomaterials for Electrochemical Energy Conversion
TL;DR: The recent progresses in terms of surface and interface engineering of Mox C-based electrocatalytic materials are summarized, including the increased number of active sites by decreasing the particle size or introducing porous or hierarchical structures and surface modification by introducing heteroatom(s), defects, carbon materials, and others electronic conductive species.
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Porous Mn-doped cobalt phosphide nanosheets as highly active electrocatalysts for oxygen evolution reaction
Yihao Liu,Nian Ran,Riyue Ge,Jianjun Liu,Wenxian Li,Yingying Chen,Lingyan Feng,Renchao Che,Renchao Che +8 more
TL;DR: In this article, the authors designed Mn-doped cobalt phosphide (Mn-CoP) porous nanosheets for highly active OER through the in-situ metal acetate hydroxide transformation and subsequent phosphidation treatment.
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The effect of coordination environment on the activity and selectivity of single-atom catalysts
Yuqi Zhang,Jack Yun-Yen San Jose Yang,Riyue Ge,Jiujun Zhang,Julie M. Cairney,Ying Li,Mingyuan Zhu,Sean Li,Wenxian Li +8 more
TL;DR: In this article , a review of the physical and chemical strategies used to stabilize the single-atom environments and clarify how the obtained coordination environments affect the catalytic performance of SACs is presented.
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Highly efficient graphene oxide/porphyrin photocatalysts for hydrogen evolution and the interfacial electron transfer
TL;DR: By implanting metal ions as interfacial linkers of the graphene oxide (GO) and 5,15-diphenyl-10,20-di(4-pyridyl)porphyrin (DPyP), a serial of novel GO and DPyP nanocomposites were achieved.