Biowaste valorization: multifunctional hybrid lignin/TiO nanostructures for bacterial-biocide disinfection and dye removal
An urgent goal is to enhance the economic and environmental value of biowaste via recycling and conversion techniques. Lignin, a plentiful plant polymer, holds significant potential for the development of sustainable multifunctional materials. Despite its advantages in terms of red-ox and pollutant...
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| Veröffentlicht in: | Environmental science. Nano 2024-05, Vol.11 (5), p.2127-2144 |
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| creator | Gallo, Marica Venezia, Virginia Muscetta, Marica Grappa, Rossella Verrillo, Mariavittoria Landi, Gianluca Marotta, Raffaele Luciani, Giuseppina |
| description | An urgent goal is to enhance the economic and environmental value of biowaste
via
recycling and conversion techniques. Lignin, a plentiful plant polymer, holds significant potential for the development of sustainable multifunctional materials. Despite its advantages in terms of red-ox and pollutant adsorption properties, challenges in lignin valorization must address its chemical complexity and tendency to aggregate in water. We demonstrate that lignin and TiO
2
can be intimately combined through a versatile
in situ
hydrothermal strategy to obtain hybrid multifunctional nanostructures with tunable functionalities. An in-depth physicochemical analysis elucidates the structure-property-function correlations. The synergistic combination of lignin and TiO
2
in hybrid nanoparticles enhances ROS-scavenging/generating properties. Indeed, a lignin content of 20% wt/wt within nanostructures (TiO
2
_DL200 sample) resulted in nanoparticles with improved antibacterial/antimycotic properties (15 mm increase in the diameter of bacterial growth inhibition (DDK) and 3-fold decrease in the minimum inhibitory concentration (MIC) against fungi compared to neat TiO
2
nanoparticles and around 1.3 mm DDK increase and 3-fold MIC decrease against fungi compared to neat lignin) and 90% radical scavenging activity in only 2 minutes. In addition, TiO
2
_DL200 nanoparticles achieved nearly 80% and 90% removal of methylene blue (MB) and fuchsin (F) dyes, respectively, by adsorption within 5 minutes. Conversely, by tuning the lignin content within the hybrid nanomaterial, a trade-off between the adsorption capacity and the photocatalytic activity is achieved, with MB and F removal efficiencies exceeding 80% in 120 minutes under UV-A conditions for TiO
2
_DL50. These outcomes prove the potential uses of the obtained hybrid nanoparticles as antioxidant, antibacterial and antifungal additives and for the decontamination of dyes in water remediation.
Hybrid lignin TiO
2
nanoparticles: red-ox activity enables biocide disinfection and dye removal. |
| doi_str_mv | 10.1039/d4en00091a |
| format | Article |
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via
recycling and conversion techniques. Lignin, a plentiful plant polymer, holds significant potential for the development of sustainable multifunctional materials. Despite its advantages in terms of red-ox and pollutant adsorption properties, challenges in lignin valorization must address its chemical complexity and tendency to aggregate in water. We demonstrate that lignin and TiO
2
can be intimately combined through a versatile
in situ
hydrothermal strategy to obtain hybrid multifunctional nanostructures with tunable functionalities. An in-depth physicochemical analysis elucidates the structure-property-function correlations. The synergistic combination of lignin and TiO
2
in hybrid nanoparticles enhances ROS-scavenging/generating properties. Indeed, a lignin content of 20% wt/wt within nanostructures (TiO
2
_DL200 sample) resulted in nanoparticles with improved antibacterial/antimycotic properties (15 mm increase in the diameter of bacterial growth inhibition (DDK) and 3-fold decrease in the minimum inhibitory concentration (MIC) against fungi compared to neat TiO
2
nanoparticles and around 1.3 mm DDK increase and 3-fold MIC decrease against fungi compared to neat lignin) and 90% radical scavenging activity in only 2 minutes. In addition, TiO
2
_DL200 nanoparticles achieved nearly 80% and 90% removal of methylene blue (MB) and fuchsin (F) dyes, respectively, by adsorption within 5 minutes. Conversely, by tuning the lignin content within the hybrid nanomaterial, a trade-off between the adsorption capacity and the photocatalytic activity is achieved, with MB and F removal efficiencies exceeding 80% in 120 minutes under UV-A conditions for TiO
2
_DL50. These outcomes prove the potential uses of the obtained hybrid nanoparticles as antioxidant, antibacterial and antifungal additives and for the decontamination of dyes in water remediation.
Hybrid lignin TiO
2
nanoparticles: red-ox activity enables biocide disinfection and dye removal.</description><identifier>ISSN: 2051-8153</identifier><identifier>EISSN: 2051-8161</identifier><identifier>DOI: 10.1039/d4en00091a</identifier><ispartof>Environmental science. Nano, 2024-05, Vol.11 (5), p.2127-2144</ispartof><lds50>peer_reviewed</lds50><woscitedreferencessubscribed>false</woscitedreferencessubscribed></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><link.rule.ids>314,780,784,27924,27925</link.rule.ids></links><search><creatorcontrib>Gallo, Marica</creatorcontrib><creatorcontrib>Venezia, Virginia</creatorcontrib><creatorcontrib>Muscetta, Marica</creatorcontrib><creatorcontrib>Grappa, Rossella</creatorcontrib><creatorcontrib>Verrillo, Mariavittoria</creatorcontrib><creatorcontrib>Landi, Gianluca</creatorcontrib><creatorcontrib>Marotta, Raffaele</creatorcontrib><creatorcontrib>Luciani, Giuseppina</creatorcontrib><title>Biowaste valorization: multifunctional hybrid lignin/TiO nanostructures for bacterial-biocide disinfection and dye removal</title><title>Environmental science. Nano</title><description>An urgent goal is to enhance the economic and environmental value of biowaste
via
recycling and conversion techniques. Lignin, a plentiful plant polymer, holds significant potential for the development of sustainable multifunctional materials. Despite its advantages in terms of red-ox and pollutant adsorption properties, challenges in lignin valorization must address its chemical complexity and tendency to aggregate in water. We demonstrate that lignin and TiO
2
can be intimately combined through a versatile
in situ
hydrothermal strategy to obtain hybrid multifunctional nanostructures with tunable functionalities. An in-depth physicochemical analysis elucidates the structure-property-function correlations. The synergistic combination of lignin and TiO
2
in hybrid nanoparticles enhances ROS-scavenging/generating properties. Indeed, a lignin content of 20% wt/wt within nanostructures (TiO
2
_DL200 sample) resulted in nanoparticles with improved antibacterial/antimycotic properties (15 mm increase in the diameter of bacterial growth inhibition (DDK) and 3-fold decrease in the minimum inhibitory concentration (MIC) against fungi compared to neat TiO
2
nanoparticles and around 1.3 mm DDK increase and 3-fold MIC decrease against fungi compared to neat lignin) and 90% radical scavenging activity in only 2 minutes. In addition, TiO
2
_DL200 nanoparticles achieved nearly 80% and 90% removal of methylene blue (MB) and fuchsin (F) dyes, respectively, by adsorption within 5 minutes. Conversely, by tuning the lignin content within the hybrid nanomaterial, a trade-off between the adsorption capacity and the photocatalytic activity is achieved, with MB and F removal efficiencies exceeding 80% in 120 minutes under UV-A conditions for TiO
2
_DL50. These outcomes prove the potential uses of the obtained hybrid nanoparticles as antioxidant, antibacterial and antifungal additives and for the decontamination of dyes in water remediation.
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2
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via
recycling and conversion techniques. Lignin, a plentiful plant polymer, holds significant potential for the development of sustainable multifunctional materials. Despite its advantages in terms of red-ox and pollutant adsorption properties, challenges in lignin valorization must address its chemical complexity and tendency to aggregate in water. We demonstrate that lignin and TiO
2
can be intimately combined through a versatile
in situ
hydrothermal strategy to obtain hybrid multifunctional nanostructures with tunable functionalities. An in-depth physicochemical analysis elucidates the structure-property-function correlations. The synergistic combination of lignin and TiO
2
in hybrid nanoparticles enhances ROS-scavenging/generating properties. Indeed, a lignin content of 20% wt/wt within nanostructures (TiO
2
_DL200 sample) resulted in nanoparticles with improved antibacterial/antimycotic properties (15 mm increase in the diameter of bacterial growth inhibition (DDK) and 3-fold decrease in the minimum inhibitory concentration (MIC) against fungi compared to neat TiO
2
nanoparticles and around 1.3 mm DDK increase and 3-fold MIC decrease against fungi compared to neat lignin) and 90% radical scavenging activity in only 2 minutes. In addition, TiO
2
_DL200 nanoparticles achieved nearly 80% and 90% removal of methylene blue (MB) and fuchsin (F) dyes, respectively, by adsorption within 5 minutes. Conversely, by tuning the lignin content within the hybrid nanomaterial, a trade-off between the adsorption capacity and the photocatalytic activity is achieved, with MB and F removal efficiencies exceeding 80% in 120 minutes under UV-A conditions for TiO
2
_DL50. These outcomes prove the potential uses of the obtained hybrid nanoparticles as antioxidant, antibacterial and antifungal additives and for the decontamination of dyes in water remediation.
Hybrid lignin TiO
2
nanoparticles: red-ox activity enables biocide disinfection and dye removal.</abstract><doi>10.1039/d4en00091a</doi><tpages>18</tpages></addata></record> |
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| source | Royal Society Of Chemistry Journals |
| title | Biowaste valorization: multifunctional hybrid lignin/TiO nanostructures for bacterial-biocide disinfection and dye removal |
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