J
Jingqi Tian
Researcher at Chinese Academy of Sciences
Publications - 115
Citations - 16211
Jingqi Tian is an academic researcher from Chinese Academy of Sciences. The author has contributed to research in topics: Graphene & Catalysis. The author has an hindex of 57, co-authored 100 publications receiving 14308 citations. Previous affiliations of Jingqi Tian include Yangzhou University & Nanyang Technological University.
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Self-Supported Nanoporous Cobalt Phosphide Nanowire Arrays: An Efficient 3D Hydrogen-Evolving Cathode over the Wide Range of pH 0–14
TL;DR: The topotactic fabrication of self-supported nanoporous cobalt phosphide nanowire arrays on carbon cloth via low-temperature phosphidation of the corresponding Co(OH)F/CC precursor offers excellent catalytic performance and durability under neutral and basic conditions.
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Hydrothermal Treatment of Grass: A Low-Cost, Green Route to Nitrogen-Doped, Carbon-Rich, Photoluminescent Polymer Nanodots as an Effective Fluorescent Sensing Platform for Label-Free Detection of Cu(II) Ions
Sen Liu,Jingqi Tian,Lei Wang,Yingwei Zhang,Xiaoyun Qin,Yonglan Luo,Abdullah M. Asiri,Abdulrahman O. Al-Youbi,Xuping Sun +8 more
TL;DR: This method has been successfully applied to determine Cu(2+) in real water samples and shows good results in terms of particle size and quantum yield.
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Carbon Nanotubes Decorated with CoP Nanocrystals: A Highly Active Non‐Noble‐Metal Nanohybrid Electrocatalyst for Hydrogen Evolution
TL;DR: A nanohybrid that consists of carbon nanotubes decorated with CoP nanocrystals (CoP/CNT) was prepared by the low-temperature phosphidation of a Co3O4/C NT precursor and only requires overpotentials of 70 and 122 mV to attain current densities of 2 and 10 mA cm(-2), respectively.
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A Cost-Effective 3D Hydrogen Evolution Cathode with High Catalytic Activity: FeP Nanowire Array as the Active Phase
TL;DR: An FeP nanowire array was developed on Ti plate (FeP NA/Ti) from its β-FeOOH NA/ Ti precursor through a low-temperature phosphidation reaction, showing exceptionally high catalytic activity and good durability when applied as self-supported 3D hydrogen evolution cathode.
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Self‐Supported Cu3P Nanowire Arrays as an Integrated High‐Performance Three‐Dimensional Cathode for Generating Hydrogen from Water
TL;DR: This is the topotactic fabrication of self-supported Cu3 P nanowire arrays on commercial porous copper foam from its Cu(OH)2 NW/CF precursor by a low-temperature phosphidation reaction.