Nanohybrid photocatalysts in dye (Colorants) wastewater treatment: Recent trends in simultaneous dye degradation, hydrogen production, storage and transport feasibility

Dyes (colorants) are produced globally owing to their need in textile industries and this has led to the release of toxic dye effluents into environment. This is one of the major phenomena causing harmful effects on both human and aquatic organisms. In this review, the simultaneous and sustainable w...

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Bibliographic Details
Published in:Journal of cleaner production 2023-11, Vol.426, p.139180, Article 139180
Main Authors: Priyadharsini, P., SundarRajan, P., Pavithra, K. Grace, Naveen, S., SanjayKumar, S., Gnanaprakash, D., Arun, J., Pugazhendhi, Arivalagan
Format: Article
Language:English
Subjects:
Bio-hydrogen
biochar
Colorants
Dye wastewater
energy
fabrics
humans
hydrogen
hydrogen production
Hydrogen storage and transport
magnetism
methylene blue
Nanohybrids
photocatalysis
Photocatalysts
toxicity
wastewater treatment
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Summary:Dyes (colorants) are produced globally owing to their need in textile industries and this has led to the release of toxic dye effluents into environment. This is one of the major phenomena causing harmful effects on both human and aquatic organisms. In this review, the simultaneous and sustainable way of dye degradation with both wastewater treatment and hydrogen energy production via photocatalysis was discussed. It was seen that multiple researches were reported on different photocatalysts synthesis and experimentation on dye degradation and hydrogen production. This review further focuses on dyes and their toxicity, photocatalytic materials, hydrogen storage and transport feasibility. Magnetic biochar based photocatalysts showed more than 90% methylene blue degradation efficiency. Metal doped nano catalysts showed 0.072 min−1 rate of organic dye degradation. Hydrogen produced from photocatalysis needs to be safely stored and transported. Containers make and material for effective hydrogen storage and transport needs to be identified in future. This review recommends the future directions to overcome the limitations of existing photocatalysts for simultaneous dye degradation and hydrogen production. [Display omitted] •Sustainable degradation of dye wastewater is a huge concern in industrial scale.•Design, fabrication and synthesis of novel hybrid photocatalysts is performed.•Photocatalysis based dye degradation provides green energy and treated water.•Hydrogen is produced via oxidation and reduction reaction needs to be recovered.•Overall outcome serves to SDGs 6, 7, 14 and safer environment for next generation.
ISSN:0959-6526
1879-1786
DOI:10.1016/j.jclepro.2023.139180