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Cu/CuO Composite Track-Etched Membranes for Catalytic Decomposition of Nitrophenols and Removal of As(III)

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dc.contributor.author Mashentseva, Anastassiya A.
dc.contributor.author Mashentseva, Anastassiya A.
dc.contributor.author Barsbay, Murat
dc.contributor.author Zdorovets, Maxim V.
dc.contributor.author Zheltov, Dmitriy A.
dc.contributor.author Güven, Olgun
dc.date.accessioned 2024-09-13T06:05:43Z
dc.date.available 2024-09-13T06:05:43Z
dc.date.issued 2020
dc.identifier.issn 2079-4991
dc.identifier.other doi:10.3390/nano10081552
dc.identifier.uri http://rep.enu.kz/handle/enu/16300
dc.description.abstract One of the promising applications of nanomaterials is to use them as catalysts and sorbents to remove toxic pollutants such as nitroaromatic compounds and heavy metal ions for environmental protection. This work reports the synthesis of Cu/CuO-deposited composite track-etched membranes through low-temperature annealing and their application in catalysis and sorption. The synthesized Cu/CuO/poly(ethylene terephthalate) (PET) composites presented efficient catalytic activity with high conversion yield in the reduction of nitro aryl compounds to their corresponding amino derivatives. It has been found that increasing the time of annealing raises the ratio of the copper(II) oxide (CuO) tenorite phase in the structure, which leads to a significant increase in the catalytic activity of the composites. The samples presented maximum catalytic activity after 5 h of annealing, where the ratio of CuO phase and the degree of crystallinity were 64.3% and 62.7%, respectively. The catalytic activity of pristine and annealed composites was tested in the reduction of 4-nitroaniline and was shown to remain practically unchanged for five consecutive test cycles. Composites annealed at 140 ◦C were also tested for their capacity to absorb arsenic(III) ions in cross-flow mode. It was observed that the sorption capacity of composite membranes increased by 48.7% compared to the pristine sample and reached its maximum after 10 h of annealing, then gradually decreased by 24% with further annealing. ru
dc.language.iso en ru
dc.publisher Nanomaterials ru
dc.relation.ispartofseries Volume 10;Issue 8
dc.subject composite membranes ru
dc.subject catalytic activity ru
dc.subject copper(II) oxide microtubes ru
dc.subject template synthesis ru
dc.subject arsenic removal ru
dc.subject waste water pollutant ru
dc.title Cu/CuO Composite Track-Etched Membranes for Catalytic Decomposition of Nitrophenols and Removal of As(III) ru
dc.type Article ru


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