Combined effect of different calcination temperatures and non-equilibrium low-pressure plasma on photocatalytic activity of bi-phasic heterostructured CuMoO4-ZrO2/GO composite
Key Points
Photocatalytic activity significantly improves with optimal calcination temperatures in the composite.
The study identifies a peak photocatalytic efficiency at specific temperature ranges, enhancing environmental applications.
Assessment using plasma treatment and varying calcination temperatures optimizes the composite's properties.
These findings highlight the potential of tailored photocatalytic materials for sustainable energy solutions.
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Combined effect of different calcination temperatures and non-equilibrium low-pressure plasma on photocatalytic activity of bi-phasic heterostructured CuMoO4-ZrO2/GO composite | Synapse