Kai Fan
Tianjin University
5 Papers
Kai Fan is an academic researcher from Tianjin University. The author has contributed to research in topics: Ternary numeral system & Adsorption. The author has an hindex of 3, co-authored 4 publications.
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Papers
2D/2D Z-scheme Bi2WO6/Porous-g-C3N4 with synergy of adsorption and visible-light-driven photodegradation
TL;DR: In this paper, a 2D/2D Z-scheme visible-light-driven Bi2WO6/Porous-g-C3N4 with enhanced adsorption and visible light-driven photodegradation was swimmingly attained by an ultrasonication-assisted chemisorption method.
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3D interconnected hierarchical porous N-doped carbon constructed by flake-like nanostructure with Fe/Fe3C for efficient oxygen reduction reaction and supercapacitor.
TL;DR: The as-prepared composites carbonized at 800 °C displayed comparable ORR activity with Pt/C in alkaline media as well as excellent long-term stability, superb methanol tolerance, and appreciable onset potential in acid media.
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Facile in situ reductive synthesis of both nitrogen deficient and protonated g-C3N4 nanosheets for the synergistic enhancement of visible-light H2 evolution.
Weisong Li,Zheng Guo,Litong Jiang,Lei Zhong,Guoning Li,Jiajun Zhang,Kai Fan,Sergio L. González-Cortés,Kuijuan Jin,Chunjian Xu,Tiancun Xiao,Peter P. Edwards +11 more
TL;DR: It is illustrated that the synergistic H3PO2 doping modifies the layered g-C3N4 materials by introducing nitrogen vacancies as well as protonating them, leading to significant photocatalytic H2 evolution enhancements, while the g- C3N 4 materials doped with phosphoric acid (H3PO4) are simply protonated further, revealing the varied doping effects of phosphorus having different (but accessible) valence states.
Synergy of directional oxidation and vacuum gasification for green recovery of As2O3 from arsenic-containing hazardous secondary resources.
TL;DR: In this paper , a clean and efficient arsenic fixation technology has been developed in this study for arsenic removal, which involves directional oxidation and vacuum gasification of AHSRs, which is known to produce arsenic-containing hazardous secondary resources (AHSRs), which cause irreversible damage to the total environment.
11
Isobaric Vapor–Liquid Equilibrium for Binary and Ternary Systems of tert-Butanol + tert-Butyl Acetate + Chlorobenzene at 101.33 kPa
TL;DR: In this paper, the authors measured the Isobaric vapor-liquid equilibria of the tert-butanol + chlorobenzene and tertbutyl acetate+ chlorobensene binary systems and the ternary system at 101.33 kPa.