| Summary: | Piezo-photocatalysis is an emerging approach that combines the piezoelectric effect with the optical properties of a semiconductor to promote the effective separation of charge carriers. However, current piezocatalytic materials often suffer from poor catalytic efficiency and limited practicality due to a weak built-in electric field induced by mechanical energy. Herein, we introduce unique intergrowth ferroelectric semiconductor SrBi8Ti7O27 nanosheets as a green and high-performance piezo-photocatalyst for CO2 reduction and pollutant degradation. Compared to single ferroelectrics Bi4Ti3O12 and SrBi4Ti4O15, intergrowth ferroelectric SrBi8Ti7O27, with the strongest spontaneous polarization electric field, achieves superior piezo-photocatalytic CO2-to-CO conversion (361.34 μmol g-1 h-1). Moreover, our design also degrades high-concentration organic pollutants (100 mg/L) with up to ∼100% efficiency within 60 min, notably outperforming most standalone and untreated piezo-photocatalysts reported to date. These findings provide valuable insights for the development of highly efficient and multifunctional piezo-photocatalysts for green sustainable energy, environmental, and chemical applications.
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