2019
DOI: 10.1039/c8na00318a
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Green biomimetic preparation of efficient Ag–ZnO heterojunctions with excellent photocatalytic performance under solar light irradiation: a novel biogenic-deposition-precipitation approach

Abstract: A novel biogenic-deposition-precipitation (BDP) approach has been presented for the preparation of stable binary composites using fennel seed extract.

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Cited by 59 publications
(30 citation statements)
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“…For both components-organic and inorganic-green methods were analysed apart. In the case of inorganic colloids, they can be produced from renewable resources in some cases, additionally to be synthesized by assistance of organisms or via hydrothermal reactions [83]. In the case of polymers (organic component), they can be polymerized from non-high-molecular precursors by green routes and from renewable resources.…”
Section: Biological Methodsmentioning
confidence: 99%
“…For both components-organic and inorganic-green methods were analysed apart. In the case of inorganic colloids, they can be produced from renewable resources in some cases, additionally to be synthesized by assistance of organisms or via hydrothermal reactions [83]. In the case of polymers (organic component), they can be polymerized from non-high-molecular precursors by green routes and from renewable resources.…”
Section: Biological Methodsmentioning
confidence: 99%
“…In addition, CeO 2 NP has shown faster POX degradation under UV–Vis irradiation than an ambient light condition. Occurrence of such photocatalytic reactivity is broadly reported in other types of metal oxide NPs including TiO 2 and Ag-ZnO [ 150 , 151 ]. Their photocatalytic reactivity is linked to more effective degradation of parathion and chlorpyrifos that occurs under a (simulated) solar light condition.…”
Section: Therapeutic Platforms For Reactive Organophosphate Treatmmentioning
confidence: 99%
“…This is illustrated with those nanoscavengers made of liposome [ 120 , 134 , 139 ], polymer [ 140 , 141 ], MOF [ 117 , 148 ], metal oxide [ 149 , 150 , 151 ] and dendrimer [ 37 , 130 , 155 ]. Their scavenging capability relies on reactive functionalities either present in unmodified nanomaterials such as photocatalytic metal oxides [ 149 , 150 , 151 ] or built additionally such as oximes [ 120 , 134 ], metal chelates [ 140 , 141 ], amines [ 148 ] or amino acids [ 155 ]. Alternatively, specific functionalization is achieved through bioscavenger encapsulation such as phosphotriesterase [ 139 ] or OPAA [ 117 ] encapsulated in liposomes [ 139 ] or porous MOF [ 117 ].…”
Section: Conclusion and Perspectivementioning
confidence: 99%
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“…Nanoparticles have been gaining attention due to its excellent properties as compared to bulk materials like high conductivity, catalytic activity, chemical stability, high surface to volume ratio, etc. [1][2][3] These unique properties lead nanoparticles, especially metal nanoparticles, to be developed in various applications such as sensor, [4] electronic, [3] catalyst, [5][6][7][8] and especially as biomedical applications. Silver nanoparticles have been most advanced for nanomedicine, which for a long time had been emerged as an antibacterial agent and recently extended as anticancer as well.…”
Section: Introductionmentioning
confidence: 99%