Enhanced piezophotocatalytic performance of heterostructured BCTS/Ag2O composite

Piezo-photocatalysis is regarded as a promising strategy to suppress the rapid recombination of photogenerated charges. Herein, a novel (Ba_0.95,Ca_0.05)(Ti_0.90,Sn_0.10)O₃-xAg₂O (BCTS-xAg₂O) heterojunction was fabricated via a facile chemical method to harness the piezoelectric effect under ultrasonic vibration for a remarkable enhancement of catalytic performance. The BCTS-0.01Ag₂O composite achieves a remarkable 99.5% degradation of RhB within 120 min under concurrent light and ultrasonic excitation. This corresponds to a reaction rate constant (k) of 0.04407 min⁻¹, which surpasses those of individual BCTS and Ag₂O by factors of 5.54 and 8.64, respectively. The enhanced catalytic performance is primarily attributed to the effective separation of photogenerated electron–hole pairs in the BCTS-Ag₂O heterojunction by the built-in piezoelectric field of BCTS. This study not only delivers a high-performance BCTS-Ag₂O catalyst but also sheds light on the precise design of efficient piezo-photocatalysts.