Investigating the effect of MoS2–SnS2 heterojunction to enhance the decomposition of organic pollutants under visible light irradiation

“…Utilizing photocatalytic wastewater treatment emerges as a promising solution to address this issue, offering notable advantages such as cost-effectiveness, simplicity, and the capability to convert the chemical composition of organic dyes into harmless byproducts such as CO 2 . 120,121 In the realm of employing SnS 2 as a photocatalyst for organic dye degradation, extensive research has been conducted, targeting various dye types including methylene blue, 122 methyl orange, 123 rhodamine B, 124–126 crystal violet, 127 and others. Table 1 depicts the efficacy of SnS 2 photocatalysts in removing organic dyes.…”

Enhanced photocatalytic performance of SnS₂ under visible light irradiation: strategies and future perspectives

“…Utilizing photocatalytic wastewater treatment emerges as a promising solution to address this issue, offering notable advantages such as cost-effectiveness, simplicity, and the capability to convert the chemical composition of organic dyes into harmless byproducts such as CO 2 . 120,121 In the realm of employing SnS 2 as a photocatalyst for organic dye degradation, extensive research has been conducted, targeting various dye types including methylene blue, 122 methyl orange, 123 rhodamine B, 124–126 crystal violet, 127 and others. Table 1 depicts the efficacy of SnS 2 photocatalysts in removing organic dyes.…”

Enhanced photocatalytic performance of SnS₂ under visible light irradiation: strategies and future perspectives

Visible light-driven photocatalytic biodiesel production using novel SnS2/Fly ash photocatalyst

Optimized MoS2/SnS2@AC nanocomposites for superior visible light-driven pollutant degradation and antibacterial activity