Journal ArticleDOI
Direct Z-scheme g-C_3N_4/WO_3 photocatalyst with atomically defined junction for H_2 production
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TLDR
In this article, a direct Z-scheme g-C_3N_4/WO_3 photocatalyst with host-guest architecture is designed, demonstrating significantly enhanced activities of photocatalytic H 2 production.Abstract:
Mimicking the natural photosynthesis, artificial Z-scheme photocatalysis enables more efficient utilization of solar energy for sustainable chemical fuel production. Herein, a direct Z-scheme g-C_3N_4/WO_3 photocatalyst with host-guest architecture is rationally designed, demonstrating significantly enhanced activities of photocatalytic H_2 production. Unprecedented atomic-scale imaging of both the in-plane and interlayer structures in g-C_3N_4 revealed the well-defined interfaces in such architecture, where the 2D g-C_3N_4 layers stand vertically on the flat facets of WO_3 nanocuboids. Through both experimental and theoretical investigations, mechanistic insights regarding the direct Z-scheme electron transfer from WO_3 to g-C_3N_4 were obtained. The Z-scheme electron transfer was driven by the internal electric field at the interfacial junction, defined by the covalent W-O-N-(C)_2 interaction. Under simultaneous light excitation, this atomically defined junction induces a rapid electron injection from WO_3 to inhibit the fast recombination kinetics within g-C_3N_4 and prolong the charge carrier lifetime of g-C_3N_4, thereby liberating more excited electrons with high reducing power for H_2 production.read more
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S-Scheme Heterojunction Photocatalyst
TL;DR: In this article, the authors soberly reflect the charge transfer mechanism from many perspectives and are finally aware of the fundamental challenges they face to ensure a correct understanding, it is necessary to share their analysis with others Moreover, step-scheme heterojunctions, consisting of a reduction photocatalyst and an oxidizer with staggered band structure, are introduced to avoid misinterpretation.
Journal ArticleDOI
Ultrathin 2D/2D WO3/g-C3N4 step-scheme H2-production photocatalyst
TL;DR: In this paper, an ultrathin 2D/2D WO3/g-C3N4 step-like composite composite heterojunction photocatalysts were fabricated by electrostatic self-assembly of ultra-thin tungsten trioxide (WO3) and graphitic carbon nitride (g)-nodes.
Journal ArticleDOI
Cocatalysts for Selective Photoreduction of CO2 into Solar Fuels.
TL;DR: Various cocatalysts, such as the biomimetic, metal-based,Metal-free, and multifunctional ones, and their selectivity for CO2 photoreduction are summarized and discussed, along with the recent advances in this area.
Journal ArticleDOI
Direct Z-scheme photocatalysts: Principles, synthesis, and applications
Quanlong Xu,Liuyang Zhang,Jiaguo Yu,Jiaguo Yu,Swelm Wageh,Ahmed A. Al-Ghamdi,Mietek Jaroniec +6 more
TL;DR: In this article, a review concisely compiles the recent progress in the fabrication, modification, and major applications of the direct Z-scheme photocatalysts; the latter include water splitting, carbon dioxide reduction, degradation of pollutants, and biohazard disinfection.
Journal ArticleDOI
Semiconductor polymeric graphitic carbon nitride photocatalysts: the “holy grail” for the photocatalytic hydrogen evolution reaction under visible light
TL;DR: A panorama of the latest advancements in the rational design and development of semiconductor polymeric graphitic carbon nitride (g-C3N4) photocatalysts for visible-light-induced hydrogen evolution reaction (HER) is presented in this paper.
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