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W<sub>18</sub>O<sub>49</sub> Frameworks Decorated with Graphitic Carbon Nitride Quantum Dots for Photocatalytic Hydrogen Production

Yurong Yang, Min Qiu, Qi Qi, Feiyang Chen, Jiaming Chen, Yufei Liu, Lei Yang

2020ACS Applied Nano Materials36 citationsDOI

Abstract

Quantum dots (QDs) have exhibited remarkable advantages for photocatalytic H2 evolution. Unfortunately, despite their unique quantum size effects and abundant catalytic active sites, many applications of QDs have been hindered in that they are prone to aggregation and easy to leach off from the substrate. Therefore, it is highly desirable to fabricate a special nanostructure with confinement effects to conquer their intrinsic drawbacks. Herein, we present a direct g-C3N4–x/W18O49 Z-scheme nanocomposite for enhanced photocatalytic H2 production. This system is composed of a W18O49 framework with several microporous slits and g-C3N4 QDs with a rich nitrogen vacancy. These several microporous slits can fix QDs and avoid their aggregation. Besides, the microporous slit surface can be functionalized by adjusting the pH value, thus ensuring intimate contact between W18O49 framework and g-C3N4–x QDs. The unique Z-scheme confinement structure facilitates photoinduced carrier transfer and improves the photocatalytic H2 production performance. The g-C3N4–x/W18O49 nanocomposite exhibits an exceedingly high H2 evolution rate and super stability because of the confinement structure and effective charge channel. This study provides a strategy to design the high-efficiency catalysts for solar H2 production.

Topics & Concepts

PhotocatalysisMicroporous materialQuantum dotGraphitic carbon nitrideMaterials scienceHydrogen productionNanocompositeNanotechnologyNitrideWater splittingHydrogenCarbon fibersNanostructureCatalysisChemical engineeringChemistryLayer (electronics)Composite materialComposite numberOrganic chemistryEngineeringBiochemistryAdvanced Photocatalysis TechniquesGas Sensing Nanomaterials and SensorsCovalent Organic Framework Applications