Abstract
Taking our current environmental situation in the world into consideration, people should face growing problems of air and water pollution. Heterogeneous photocatalysis is a highly promising tool to improve both air and water quality through decomposition/mineralization of contaminants directly into harmless CO2 and H2O under ambient conditions. In this contribution, we focused on the synthesis of self-assembly WO3 thin films via an electrochemical approach in the aqueous electrolyte containing fluoride ions toward air purification. The effect of preparation conditions such as applied potential (10–50 V), anodization time (15–120 min), concentration of H2SO4 (0.5–1.5 M) and NaF (0.1–1.0 wt.%) on the morphology, photocurrent response, and photocatalytic activity addressed to removal of air pollutant in the presence of as-prepared WO3 samples were thoroughly examined and presented. The results revealed the growth of nanoplatelets and their gradual transformation into flower-like structures. The oxide layers and platelet thickness of the WO3 samples were found to be proportionally related with the synthesis conditions. The photocatalytic ability toward air purification was evaluated by degradation of toluene from air mixture using low-powered LEDs as an irradiation source (λmax = 415 nm). The highest photoactivity was achieved in presence of the sample which possessed a well-ordered, regular shape and repeatable distribution of flower buds (100% of degradation). The results have confirmed that the oxide layer thickness of the anodic WO3 significantly affected the photocatalytic activity, which increased with the increasing thickness of WO3 (to 1.05 μm) and then had a downward trend. The photocurrent response evidenced that the well-organized sample had the highest ability in photocurrent generation under UV-Vis and Vis irradiation. Finally, a possible growth mechanism of WO3 NFs was also discussed.
Highlights
Air pollution is the major cause of global environmental threats
We propose, for the first time, a novel synthesis method of the self-assembly three-dimensional tungsten oxide nanoflowers (3D WO3 NFs) thin film with improved optical and photoelectrochemical properties and exhibited enhanced photocatalytic activity in the reaction of toluene degradation under visible irradiation
We suggest that the continuous increase in the anodization time allows achievement of a steady state while the diameter diameterofofthe theflower flower buds, thickness of the oxide layer, andplatelet the platelet thickness while the buds, thethe thickness of the oxide layer, and the thickness were were still improved
Summary
Air pollution is the major cause of global environmental threats. It contributes to the formation of respiratory diseases, infectious diseases, acute toxic effects, cancers, reproductive disorders, and allergies. The World Health Organization reports that over 4.2 million deaths result from exposure to ambient air pollutants every year [1]. Air pollutants adversely affect the world, disrupting photosynthesis, transpiration, and respiration. They increase the acidity of drinking water as well as the contents of heavy metals such as lead, Materials 2020, 13, 3506; doi:10.3390/ma13163506 www.mdpi.com/journal/materials
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