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dc.contributor.authorWang, Dawei
dc.contributor.authorPillai, Suresh C.
dc.contributor.authorHo, Shih-Hsin
dc.contributor.authorZeng, Jingbin
dc.contributor.authorLi, Yi
dc.contributor.authorDionysiou, Dionysios D.
dc.date.accessioned2020-03-11T16:11:04Z
dc.date.available2020-03-11T16:11:04Z
dc.date.copyright2018-06-20
dc.date.issued2018
dc.identifier.citationWang, Dawei, Pillai, Suresh C., Ho, Shih-Hsin, Zeng, Jingbin, Li, Yi and Dionysiou, Dionysios D. (2018) "Plasmonic-based nanomaterials for environmental remediation", Applied Catalysis B: Environmental, 2018 (237), pp. 721-741. DOI: https://doi.org/10.1016/j.apcatb.2018.05.094en_US
dc.identifier.issn0926-3373
dc.identifier.urihttp://research.thea.ie/handle/20.500.12065/3036
dc.description.abstractTechnologies based on nanomaterials are gaining increased attention as a promising method for the removal of contaminants and inactivation/killing of pathogenic microorganisms. Plasmonic nanomaterials prove to be promising in this field due to their tailored properties, including optical, photothermal, conducive, and catalytic properties. These properties have been widely used for the design of efficient materials for the environmental applications by improving the light absorption efficiency, redox reaction kinetic rates, and charge separation efficiency. In the current review, the tailored properties of plasmonic nanomaterials and how they are employed for the design of efficient environment-functional materials are discussed in detail. A number of examples for the development of composite plasmonic nanostructures such as metal/semiconductor, metal/insulator/semiconductor, and metal/semiconductor/semiconductor are provided. In addition, the recent achievements in plasmonic nanomaterials for the removal of contaminants (in both liquid and gaseous media) and the inactivation of pathogenic microorganisms are described with a number of examples. The major challenges in employing plasmonic nanomaterials for environmental applications are identified as: (1) complete mineralization of contaminants must be achieved in some cases due to the potential risks of intermediates; (2) the cost of plasmonic nanomaterials and the associated treatment processes need to be significantly decreased; (3) the stability of plasmonic nanomaterials in real environmental matrices is urgently needed to be improved; (4) the ecological safety of these nanomaterials should be investigated extensively. However, it is expected that with continuous progress of this field, plasmonic nanotechnology can be used for environmental applications more widely, not only for the examples shown in the current review, but also for soil remediation, resource recovery during waste treatment processes, and detection of contaminants. Finally, the toxicity of engineered plasmonic nanomaterials, the possibility of their release, fate, and transformation, in the environment and subsequent impact on the health of ecosystem are also addressed in detail.en_US
dc.formatPdfen_US
dc.publisherElsevieren_US
dc.relation.ispartofApplied Catalysis B: Environmentalen_US
dc.rightsAttribution-NonCommercial-NoDerivs 3.0 Ireland*
dc.rights.urihttp://creativecommons.org/licenses/by-nc-nd/3.0/ie/*
dc.subjectPhotocatalysisen_US
dc.subjectToxicologyen_US
dc.subjectPollutantsen_US
dc.subjectSilveren_US
dc.subjectGolden_US
dc.subjectPathogenic microorganismsen_US
dc.subjectNanostructured materialsen_US
dc.subjectEnvironmental toxicologyen_US
dc.titlePlasmonic-based nanomaterials for environmental remediation /en_US
dc.typeArticleen_US
dc.description.peerreviewyesen_US
dc.identifier.endpage741en_US
dc.identifier.issue237en_US
dc.identifier.startpage721en_US
dc.identifier.urlDOI: https://doi.org/10.1016/j.apcatb.2018.05.094en_US
dc.identifier.volume2018en_US
dc.rights.accessCreative Commons Attribution-NonCommercial-NoDerivsen_US
dc.subject.departmentDept of Life Sciences, ITSen_US


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Attribution-NonCommercial-NoDerivs 3.0 Ireland
Except where otherwise noted, this item's license is described as Attribution-NonCommercial-NoDerivs 3.0 Ireland