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Xixi Ji
Researcher at Harbin Institute of Technology
Publications - 22
Citations - 621
Xixi Ji is an academic researcher from Harbin Institute of Technology. The author has contributed to research in topics: Graphene & Alloy. The author has an hindex of 7, co-authored 12 publications receiving 305 citations.
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Graphene/MoS2/FeCoNi(OH)x and Graphene/MoS2/FeCoNiPx multilayer-stacked vertical nanosheets on carbon fibers for highly efficient overall water splitting
TL;DR: Wang et al. as discussed by the authors presented a highly efficient and stable oxygen evolution reaction (OER) catalyst with multilayer-stacked hybrid structure, in which vertical graphene nanosheets (VGSs), MoS2 nanoshes, and layered FeCoNi hydroxides (FeCoNi(OH)x) are successively grown on carbon fibers.
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Nanosheet-Structured Boron Nitride Spheres with a Versatile Adsorption Capacity for Water Cleaning
TL;DR: The synthesis of nanosheet-structured boron nitride spheres (NSBNS) by a catalyzing thermal evaporation method from solid B powders demonstrates the great potential of NSBNSs for water treatment and cleaning.
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3D Graphene Fibers Grown by Thermal Chemical Vapor Deposition
TL;DR: With the extraordinary properties along with the easy scalability of the simple thermal CVD, the novel 3DGFs are highly promising for many applications such as high-strength and conducting composites, flexible conductors, electromagnetic shielding, energy storage, catalysis, and separation and purification.
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A Usage Scenario Independent “Air Chargeable” Flexible Zinc Ion Energy Storage Device
Longtao Ma,Yuwei Zhao,Xixi Ji,Jie Zeng,Qi Yang,Ying Guo,Zhaodong Huang,Xinliang Li,Jie Yu,Chunyi Zhi +9 more
Journal ArticleDOI
Thermal charging of supercapacitors: a perspective
Ayar Al-zubaidi,Xixi Ji,Jie Yu +2 more
TL;DR: In this article, a review of thermally-induced self-charging in electrochemical capacitors is presented, and the future prospects of this field in the form of questions to address, additional factors to inspect, and materials of potential benefit for the design of temperature-chargeable supercapacitors.