F
Fa-tang Li
Researcher at Hebei University of Science and Technology
Publications - 63
Citations - 6336
Fa-tang Li is an academic researcher from Hebei University of Science and Technology. The author has contributed to research in topics: Photocatalysis & Catalysis. The author has an hindex of 31, co-authored 63 publications receiving 4886 citations. Previous affiliations of Fa-tang Li include University of Adelaide.
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Ti3C2 MXene co-catalyst on metal sulfide photo-absorbers for enhanced visible-light photocatalytic hydrogen production.
TL;DR: In this paper, the authors employed density functional theory calculations to direct atomic-level exploration, design and fabrication of a MXene material, Ti3C2 nanoparticles, as a highly efficient co-catalyst.
Journal Article
Ti3C2 MXene co-catalyst on metal sulfide photo-absorbers for enhanced visible-light photocatalytic hydrogen production
TL;DR: This work demonstrates the potential of earth-abundant MXene family materials to construct numerous high performance and low-cost photocatalysts/photoelectrodes.
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In Situ Microwave-Assisted Synthesis of Porous N-TiO2/g-C3N4 Heterojunctions with Enhanced Visible-Light Photocatalytic Properties
TL;DR: In this article, an in situ microwave-assisted synthesis approach has been developed to prepare N-TiO2/g-C3N4 composites using H2TiO3 as the reactant and NH3·H2O as the N-doping source.
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Novel BiOCl–C3N4 heterojunction photocatalysts: In situ preparation via an ionic-liquid-assisted solvent-thermal route and their visible-light photocatalytic activities
TL;DR: In this paper, a novel BiOCl-C3N4 heterojunction was synthesized through an ionic-liquid-assisted solvent-thermal method, through which a highly dispersed heterointerface was formed with almost no loss of C 3N4, which increased the visible light photocatalytic activity 3.3-fold relative to that of a sample of a mechanically mixed counterpart of this composition.
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Enhanced visible-light photocatalytic activity of active Al2O3/g-C3N4 heterojunctions synthesized via surface hydroxyl modification
TL;DR: Novel Al2O3/g-C3N4 heterojunction photocatalysts were fabricated through ultrasonic dispersion method and reveal holes (h(+)) and superoxide anion radical (O2(-)) are the main active species responsible for the degradation of RhB.