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Piezo-photocatalytic activity of Bi2VO5.5 for methylene blue dye degradation

Manish Kumar, Rahul Vaish, Zainab Mufarreh Elqahtani, Imen Kebaïli, M.S. Al-Buriahi, Tae Hyun Sung, Wonseop Hwang, Anuruddh Kumar

2022Journal of Materials Research and Technology42 citationsDOIOpen Access PDF

Abstract

This study comprises the combined effect of piezocatalytic and photocatalytic activity to obtain improved piezo-photocatalytic dye degradation efficiency in visible light. Single-phase Bi2VO5.5 powder was prepared through solid-state synthesis at 750 °C in 8 h. Time-dependent photocurrent responses were conducted to understand the phenomenon of charge carrier transport in visible light. Bi2VO5.5 powder sample demonstrated high photocatalytic efficiency and good reusability possessing a bandgap value of 2.13 eV. Bi2VO5.5 powder sample attained ∼70% and ∼58% degradation efficiency during photocatalysis and piezocatalysis respectively. The piezo-photocatalytic methylene blue dye attained ∼82% degradation efficiency in 240 min duration of visible light illumination. The scavenger test depicted holes (h+) as the principal active species in the piezo-photocatalytic dye degradation. There incurred no severe loss in photocatalytic efficiency even after 4 cycles which proclaims the reusability of the Bi2VO5.5 powder sample. A study on the kinetic rate constant with varying dye concentrations was conducted. With varied dye concentration of 5, 10, 15 mg/L, the kinetic rate constant obtained was 0.00528, 0.0030, and 0.00125 min−1, respectively. Germination index was found through a phytotoxicity test using vigna radiata seeds. Here visible light along with mechanical energy has been used to achieve higher MB dye degradation efficiency through piezo-photocatalysis.

Topics & Concepts

PhotocatalysisMaterials scienceVisible spectrumMethylene blueReaction rate constantPhotocurrentDegradation (telecommunications)PhotochemistryBand gapNuclear chemistryChemical engineeringOptoelectronicsKineticsOrganic chemistryCatalysisChemistryEngineeringTelecommunicationsQuantum mechanicsPhysicsComputer scienceAdvanced Photocatalysis TechniquesGas Sensing Nanomaterials and Sensors
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