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Lignin nanoparticle-decorated nanocellulose cryogels as adsorbents for pharmaceutical pollutants
- Source :
- Agustin, M B, Lehtonen, M, Kemell, M, Lahtinen, P, Oliaei, E & Mikkonen, K S 2023, ' Lignin nanoparticle-decorated nanocellulose cryogels as adsorbents for pharmaceutical pollutants ', Journal of Environmental Management, vol. 330, 117210 . https://doi.org/10.1016/j.jenvman.2022.117210
- Publication Year :
- 2023
-
Abstract
- Adsorption is a relatively simple wastewater treatment method that has the potential to mitigate the impacts of pharmaceutical pollution. This requires the development of reusable adsorbents that can simultaneously remove pharmaceuticals of varying chemical structure and properties. Here, the adsorption potential of nanostructured wood-based adsorbents towards different pharmaceuticals in a multi-component system was investigated. The adsorbents in the form of macroporous cryogels were prepared by anchoring lignin nanoparticles (LNPs) to the nanocellulose network via electrostatic attraction. The naturally anionic LNPs were anchored to cationic cellulose nanofibrils (cCNF) and the cationic LNPs (cLNPs) were combined with anionic TEMPO-oxidized CNF (TCNF), producing two sets of nanocellulose-based cryogels that also differed in their overall surface charge density. The cryogels, prepared by freeze-drying, showed layered cellulosic sheets randomly decorated with spherical lignin on the surface. They exhibited varying selectivity and efficiency in removing pharmaceuticals with differing aromaticity, polarity and ionic characters. Their adsorption potential was also affected by the type (unmodified or cationic), amount and morphology of the lignin nanomaterials, as well as the pH of the pharmaceutical solution. Overall, the findings revealed that LNPs or cLNPs can act as functionalizing and crosslinking agents to nanocellulose-based cryogels. Despite the decrease in the overall positive surface charge, the addition of LNPs to the cCNF-based cryogels showed enhanced adsorption, not only towards the anionic aromatic pharmaceutical diclofenac but also towards the aromatic cationic metoprolol (MPL) and tramadol (TRA) and neutral aromatic carbamazepine. The addition of cLNPs to TCNF-based cryogels improved the adsorption of MPL and TRA despite the decrease in the net negative surface charge. The improved adsorption was attributed to modes of removal other than electrostatic attraction, and they could be 7C-7C aromatic ring or hydrophobic interactions brought by the addition of LNPs or cLNPs. However, significant improvement was only found if the ratio of LNPs or cLNPs to nanocellulose was 0.6:1 or higher and with spherical lignin nanomaterials. As crosslinking agents, the LNPs or cLNPs affected the rheological behavior of the gels, and increased the firmness and decreased the water holding capacity of the corresponding cryogels. The resistance of the cryogels towards disintegration with exposure to water also improved with crosslinking, which eventually enabled the cryogels, especially the TCNF-based one, to be regenerated and reused for five cycles of adsorption-desorption experiment for the model pharmaceutical MPL. Thus, this study opened new opportunities to utilize LNPs in providing nanocellulose-based adsorbents with additional functional groups, which were otherwise often achieved by rigorous chemical modifications, at the same time, crosslinking the nanocellulose network.
- Subjects :
- Environmental Engineering
Chemical/chemistry
Water
General Medicine
Lignin/chemistry
Management, Monitoring, Policy and Law
Water Pollutants, Chemical/chemistry
Lignin nanoparticles
416 Food Science
Pharmaceutical pollutants
Cryogels/chemistry
Multi-component
Nanoparticles
Environmental Pollutants
Water Pollutants
Adsorption
Cellulose
SDG 6 - Clean Water and Sanitation
SDG 12 - Responsible Consumption and Production
Waste Management and Disposal
Cryogels
Nanocellulose
Subjects
Details
- Language :
- English
- Database :
- OpenAIRE
- Journal :
- Agustin, M B, Lehtonen, M, Kemell, M, Lahtinen, P, Oliaei, E & Mikkonen, K S 2023, ' Lignin nanoparticle-decorated nanocellulose cryogels as adsorbents for pharmaceutical pollutants ', Journal of Environmental Management, vol. 330, 117210 . https://doi.org/10.1016/j.jenvman.2022.117210
- Accession number :
- edsair.doi.dedup.....c7c9e1c315bbf0c7336f52a79365b0de