Current status on designing of dual Z-scheme photocatalysts for energy and environmental applications

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Abstract

Growing pollution and high energy demand are some of the major issues against humans. Water pollution is one of the main problems created due to industrial waste and irresponsible human activities. Nowadays, photocatalysis is rising as an efficient alternative to overcome the energy requirement and water purification, as it can use solar light as a source of energy. Due to some limitations of photocatalysts, such as photocarriers recombination, low surface area, and limited light absorption, modifications such as defect modifications, heterojunction can be employed. Out of all, Z-scheme heterojunction is a proficient way to overwhelm the limitation of pristine photocatalysts. To enhance the activity of Z-scheme photocatalyst, even more, a dual Z-scheme photocatalytic scheme has been developed in which two Z-scheme based charge transfer occur simultaneously on a ternary photocatalyst. In this review, we have discussed the different types of dual Z-schemes along with their application in water purification and finally, we have discussed the future prospects for further research.

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Kumar, R., Sudhaik, A., Khan, A. A. P., Raizada, P., Asiri, A. M., Mohapatra, S., … Singh, P. (2022). Current status on designing of dual Z-scheme photocatalysts for energy and environmental applications. Journal of Industrial and Engineering Chemistry, 106, 340–355. https://doi.org/10.1016/j.jiec.2021.11.008

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