Boost piezocatalytic activity of BaSO4 by coupling it with BaTiO3, Cu:BaTiO3, Fe:BaTiO3, S:BaTiO3 and modify them by sucrose for water purification

Abstract: The purpose of this study is to improve the efficiency of decontamination using BaSO4 as a piezocatalyst. Three techniques are employed in this study to enhance the piezocatalytic activity of BaSO4. The first method involves coupling BaSO4 with BaTiO3. The acid red 151 and acid blue 113 decontamination rates improved from 56.7% and 60.9% to 61.3% and 64.4%, respectively, as a result of this strategy. Additionally, the composite of BaSO4 and BaTiO3 was doped with copper, iron, sulfur, and nitrogen. By doping Ba… Show more

“…[ 37 ] Unlike traditional rigid touch panels, these flexible single‐point versions are manufactured using flexible materials, offering greater adaptability and portability. [ 38 ] As illustrated in Figure a, Zamanpour et al [ 39 ] added BaTiO3 [ 40 ] to organosilicon polymers as a charge generation layer and deposited it onto a conductive layer based on silver nanowires to form a composite layer, creating a transparent, flexible touch panel based on triboelectric nanogenerators [ 41 ] (TENGs). It was employed as a transparent, elastic, flexible, and ultralight touch on/off switch, and used for activating/deactivating LEDs, thermometers, and oximeters.…”

Integration of Flexible Touch Panels and Machine Learning: Applications and Techniques

“…[ 37 ] Unlike traditional rigid touch panels, these flexible single‐point versions are manufactured using flexible materials, offering greater adaptability and portability. [ 38 ] As illustrated in Figure a, Zamanpour et al [ 39 ] added BaTiO3 [ 40 ] to organosilicon polymers as a charge generation layer and deposited it onto a conductive layer based on silver nanowires to form a composite layer, creating a transparent, flexible touch panel based on triboelectric nanogenerators [ 41 ] (TENGs). It was employed as a transparent, elastic, flexible, and ultralight touch on/off switch, and used for activating/deactivating LEDs, thermometers, and oximeters.…”

Integration of Flexible Touch Panels and Machine Learning: Applications and Techniques

BaTiO3 Nanoparticles for highly efficient piezocatalytic reduction of toxic hexavalent chromium: Synthesis, optimization, and kinetic study

A comprehensive analysis of the structural, microstructural, optical, and piezocatalytic activity of Ba0.92Ca0.08Zr0.09Ti0.91O3 and Ba0.98Ca0.02Zr0.07Ti0.93O3 lead-free ceramics