Photocatalytic Activity of Silver-Based Biomimetics Composites

Photocatalytic Activity of Silver-Based Biomimetics Composites

Different Ag@TiO<sub>2</sub> and Ag@ZnO catalysts, with nanowire (NW) structure, were synthesized containing different amounts of silver loading (1, 3, 5, and 10 wt.%) and characterized by FE-SEM, HRTEM, BET, XRD, Raman, XPS, and UV–vis. The photocatalytic activity of the composites was...

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Main Authors: Abniel Machín, Loraine Soto-Vázquez, Carla Colón-Cruz, Carlos A. Valentín-Cruz, Gerardo J. Claudio-Serrano, Kenneth Fontánez, Edgard Resto, Florian I. Petrescu, Carmen Morant, Francisco Márquez
Format: Article
Language:English
Published: MDPI AG 2021-01-01
Series:Biomimetics
Subjects:
photocatalysis
hydrogen production
ciprofloxacin
silver nanoparticles
TiO<sub>2</sub>
ZnO
Online Access:https://www.mdpi.com/2313-7673/6/1/4
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spelling doaj-663ff8feb41944e0a363d947c85ca80b2021-01-05T00:02:58ZengMDPI AGBiomimetics2313-76732021-01-0164410.3390/biomimetics6010004Photocatalytic Activity of Silver-Based Biomimetics CompositesAbniel Machín0Loraine Soto-Vázquez1Carla Colón-Cruz2Carlos A. Valentín-Cruz3Gerardo J. Claudio-Serrano4Kenneth Fontánez5Edgard Resto6Florian I. Petrescu7Carmen Morant8Francisco Márquez9Arecibo Observatory, Universidad Ana G. Méndez-Cupey Campus, San Juan 00926, Puerto RicoMaterials Characterization Center Inc., Molecular Sciences Research Center, University of Puerto Rico, San Juan 00926, Puerto RicoNanomaterials Research Group, School of Natural Sciences and Technology, Universidad Ana G. Méndez-Gurabo Campus, Gurabo 00778, Puerto RicoNanomaterials Research Group, School of Natural Sciences and Technology, Universidad Ana G. Méndez-Gurabo Campus, Gurabo 00778, Puerto RicoNanomaterials Research Group, School of Natural Sciences and Technology, Universidad Ana G. Méndez-Gurabo Campus, Gurabo 00778, Puerto RicoDepartment of Chemistry, University of Puerto Rico-Río Piedras, San Juan 00925, Puerto RicoMaterials Characterization Center Inc., Molecular Sciences Research Center, University of Puerto Rico, San Juan 00926, Puerto RicoIFToMM-ARoTMM, Bucharest Polytechnic University, 060042 Bucharest, RomaniaDepartment of Applied Physics, Autonomous University of Madrid and Instituto de Ciencia de Materiales Nicolas Cabrera, 28049 Madrid, SpainNanomaterials Research Group, School of Natural Sciences and Technology, Universidad Ana G. Méndez-Gurabo Campus, Gurabo 00778, Puerto RicoDifferent Ag@TiO<sub>2</sub> and Ag@ZnO catalysts, with nanowire (NW) structure, were synthesized containing different amounts of silver loading (1, 3, 5, and 10 wt.%) and characterized by FE-SEM, HRTEM, BET, XRD, Raman, XPS, and UV–vis. The photocatalytic activity of the composites was studied by the production of hydrogen via water splitting under UV–vis light and the degradation of the antibiotic ciprofloxacin. The maximum hydrogen production of all the silver-based catalysts was obtained with a silver loading of 10 wt.% under irradiation at 500 nm. Moreover, 10%Ag@TiO<sub>2</sub> NWs was the catalyst with the highest activity in the hydrogen production reaction (1119 µmol/hg), being 18 times greater than the amount obtained with the pristine TiO<sub>2</sub> NW catalyst. The most dramatic difference in hydrogen production was obtained with 10%Ag@TiO<sub>2</sub>-P25, 635 µmol/hg, being 36 times greater than the amount reported for the unmodified TiO<sub>2</sub>-P25 (18 µmol/hg). The enhancement of the catalytic activity is attributed to a synergism between the silver nanoparticles incorporated and the high surface area of the composites. In the case of the degradation of ciprofloxacin, all the silver-based catalysts degraded more than 70% of the antibiotic in 60 min. The catalyst that exhibited the best result was 3%Ag@ZnO commercial, with 99.72% of degradation. The control experiments and stability tests showed that photocatalysis was the route of degradation and the selected silver-based catalysts were stable after seven cycles, with less than 1% loss of efficiency per cycle. These results suggest that the catalysts could be employed in additional cycles without the need to be resynthesized, thus reducing remediation costs.https://www.mdpi.com/2313-7673/6/1/4photocatalysishydrogen productionciprofloxacinsilver nanoparticlesTiO<sub>2</sub>ZnO
collection DOAJ
language English
format Article
sources DOAJ
author Abniel Machín
Loraine Soto-Vázquez
Carla Colón-Cruz
Carlos A. Valentín-Cruz
Gerardo J. Claudio-Serrano
Kenneth Fontánez
Edgard Resto
Florian I. Petrescu
Carmen Morant
Francisco Márquez
spellingShingle Abniel Machín
Loraine Soto-Vázquez
Carla Colón-Cruz
Carlos A. Valentín-Cruz
Gerardo J. Claudio-Serrano
Kenneth Fontánez
Edgard Resto
Florian I. Petrescu
Carmen Morant
Francisco Márquez
Photocatalytic Activity of Silver-Based Biomimetics Composites
Biomimetics
photocatalysis
hydrogen production
ciprofloxacin
silver nanoparticles
TiO<sub>2</sub>
ZnO
author_facet Abniel Machín
Loraine Soto-Vázquez
Carla Colón-Cruz
Carlos A. Valentín-Cruz
Gerardo J. Claudio-Serrano
Kenneth Fontánez
Edgard Resto
Florian I. Petrescu
Carmen Morant
Francisco Márquez
author_sort Abniel Machín
title Photocatalytic Activity of Silver-Based Biomimetics Composites
title_short Photocatalytic Activity of Silver-Based Biomimetics Composites
title_full Photocatalytic Activity of Silver-Based Biomimetics Composites
title_fullStr Photocatalytic Activity of Silver-Based Biomimetics Composites
title_full_unstemmed Photocatalytic Activity of Silver-Based Biomimetics Composites
title_sort photocatalytic activity of silver-based biomimetics composites
publisher MDPI AG
series Biomimetics
issn 2313-7673
publishDate 2021-01-01
description Different Ag@TiO<sub>2</sub> and Ag@ZnO catalysts, with nanowire (NW) structure, were synthesized containing different amounts of silver loading (1, 3, 5, and 10 wt.%) and characterized by FE-SEM, HRTEM, BET, XRD, Raman, XPS, and UV–vis. The photocatalytic activity of the composites was studied by the production of hydrogen via water splitting under UV–vis light and the degradation of the antibiotic ciprofloxacin. The maximum hydrogen production of all the silver-based catalysts was obtained with a silver loading of 10 wt.% under irradiation at 500 nm. Moreover, 10%Ag@TiO<sub>2</sub> NWs was the catalyst with the highest activity in the hydrogen production reaction (1119 µmol/hg), being 18 times greater than the amount obtained with the pristine TiO<sub>2</sub> NW catalyst. The most dramatic difference in hydrogen production was obtained with 10%Ag@TiO<sub>2</sub>-P25, 635 µmol/hg, being 36 times greater than the amount reported for the unmodified TiO<sub>2</sub>-P25 (18 µmol/hg). The enhancement of the catalytic activity is attributed to a synergism between the silver nanoparticles incorporated and the high surface area of the composites. In the case of the degradation of ciprofloxacin, all the silver-based catalysts degraded more than 70% of the antibiotic in 60 min. The catalyst that exhibited the best result was 3%Ag@ZnO commercial, with 99.72% of degradation. The control experiments and stability tests showed that photocatalysis was the route of degradation and the selected silver-based catalysts were stable after seven cycles, with less than 1% loss of efficiency per cycle. These results suggest that the catalysts could be employed in additional cycles without the need to be resynthesized, thus reducing remediation costs.
topic photocatalysis
hydrogen production
ciprofloxacin
silver nanoparticles
TiO<sub>2</sub>
ZnO
url https://www.mdpi.com/2313-7673/6/1/4
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