This research aims to harness EPS-producing cyanobacteria as bio-based tools for metal biosorption, not only to remove and recover metals from wastewater but also to enable the synthesis of value-added products from metal-enriched biomaterials, thus advancing circular economy objectives. The work spans multiple research areas, from fundamental studies of biosorption mechanisms to the development of practical applications for pollutant removal, sustainable management, and resource valorization.
Heavy metal removal and valorization by exopolysaccharide-producing cyanobacteria: a pathway for bioremediation towards circular economy / Matilde Ciani. - (2025).
Heavy metal removal and valorization by exopolysaccharide-producing cyanobacteria: a pathway for bioremediation towards circular economy
Matilde Ciani
2025
Abstract
This research aims to harness EPS-producing cyanobacteria as bio-based tools for metal biosorption, not only to remove and recover metals from wastewater but also to enable the synthesis of value-added products from metal-enriched biomaterials, thus advancing circular economy objectives. The work spans multiple research areas, from fundamental studies of biosorption mechanisms to the development of practical applications for pollutant removal, sustainable management, and resource valorization.
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Tesi_Dottorato_Matilde_Ciani_25.pdf
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