Photocatalytic Activity and Kinetic Study of Methylene Blue Degradation using N-Doped TiO2 with Zeolite-NaY

Abstract: <p class="E-JOURNALAbstractBodyEnglish">Methylene blue is the most widely used dye in the industry and it is difficult to be degraded by the microorganism. This research aims to investigate the photocatalytic activity and effects of contact time on the photocatalytic degradation rate of methylene blue by TiO₂/Zeolite-NaY and TiO₂-N/Zeolite-NaY material based on the kinetic study. The Advanced Oxidative Process (AOP) method was used to degrade methylene blue. … Show more

“…The pairs of hole-electron will automatically recombine on the semiconductor (Iqbal et al, Organic Pollutans 2020), and it will lead to the degradation process. The most well-known material as a photocatalyst is TiO2 Iqbal et al, 2021;Susanti et al, 2021), but another semiconductor also has potential for photocatalyst application. Table 2 shows some semiconductor material that is widely used by researchers as a photocatalyst to degrade pollutants.…”

A Review: Development of Photocatalyst Materials and Its Performance for Humic Acid Removal in Peatwater

“…The pairs of hole-electron will automatically recombine on the semiconductor (Iqbal et al, Organic Pollutans 2020), and it will lead to the degradation process. The most well-known material as a photocatalyst is TiO2 Iqbal et al, 2021;Susanti et al, 2021), but another semiconductor also has potential for photocatalyst application. Table 2 shows some semiconductor material that is widely used by researchers as a photocatalyst to degrade pollutants.…”

A Review: Development of Photocatalyst Materials and Its Performance for Humic Acid Removal in Peatwater