Journal
JOURNAL OF ALLOYS AND COMPOUNDS
Volume 960, Issue -, Pages -Publisher
ELSEVIER SCIENCE SA
DOI: 10.1016/j.jallcom.2023.170669
Keywords
Photocatalysis; Piezocatalysis; Bi-piezoelectric synergistic effect; Pollutant degradation
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Piezoelectric polarization is a promising strategy for enhancing charge carrier separation and transfer in photocatalysts by modulating energy band structure. In this study, a binary piezoelectric integrated piezo-photocatalytic heterojunction o-KNbO3/MoS2 was fabricated, which exhibited higher piezo-photocatalytic degradation rates compared to individual photocatalysis or piezocatalysis. The results demonstrate the potential of integrated piezo-photocatalysts in achieving efficient pollutant degradation and enhancing electrochemical performance.
Piezoelectric polarization is a promising approach to promoting the separation and transfer of charge carriers of photocatalysts by modulating energy band structure. A binary piezoelectric integrated piezo-photocatalytic heterojunction o-KNbO3/MoS2 (o-KN/MS) is fabricated through few-layered MoS2 na-nosheets growth on the ferroelectric orthorhombic KNbO3 (o-KNbO3). Under simultaneous light irradiation and ultrasonication, the optimal o-KN/MS exhibits a higher piezo-photocatalytic rhodamine B degradation rate (0.16979 min-1) than individual photocatalysis (0.00981 min-1) or individual piezocatalysis (0.09419 min-1). The piezo-photocatalytic degradation rates of RhB (0.16979 min-1), Cr (VI) (0.00877 min-1), and MB (0.01017 min-1) of o-KN/MS are 2.6, 7.9, and 4.2 times as large as that of single piezoelectric hybrid piezo-photocatalyst c-KNbO3/MoS2, respectively, where c-KNbO3 in c-KN/MS refers to non-piezoelectric paraelectric cubic KNbO3 (c-KNbO3). At the same condition, the current density for o-KN/MS reaches 54.96 & mu;A/cm2, which is 2.9 folds as high as that of c-KN/MS. These results demonstrate that the altering piezo-electric polarization from the binary piezoelectric materials promotes continuous carrier separation within o-KNbO3 and MoS2 but also on the heterojunction interface, which provides a strategy for designing in-tegrated piezo-photocatalyst to achieve efficient pollutant degradation and enhance electrochemical per-formance.& COPY; 2023 Elsevier B.V. All rights reserved.
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