A facile strategy to fabricate ternary WO3/CuO/rGO nano-composite for the enhanced photocatalytic degradation of multiple organic pollutants and antimicrobial activity

Alsafari, Ibrahim A.; Chaudhary, Khadija; Warsi, Muhammad Farooq; Warsi, Al-Zoha; Waqas, Muhammad; Hasan, Murtaza; Jamil, Akmal; Shahid, Muhammad

doi:10.1016/j.jallcom.2022.168537

Cited by 43 publications

(12 citation statements)

References 64 publications

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“…The bands at 1237 cm −1 , 1320 cm −1 , and 1421 cm −1demonstrate different vibrational modes from g-C 3 N 4 ring. The band that emerged at 3620 cm −1 is attributed to O-H stretching vibration 64.…”

mentioning

confidence: 99%

Iron/vanadium co-doped tungsten oxide nanostructures anchored on graphitic carbon nitride sheets (FeV-WO₃@g-C₃N₄) as a cost-effective novel electrode material for advanced supercapacitor applications

Parveen,

Cochran,

Zulfiqar

et al. 2023

RSC Adv.

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confidence: 99%

Iron/vanadium co-doped tungsten oxide nanostructures anchored on graphitic carbon nitride sheets (FeV-WO₃@g-C₃N₄) as a cost-effective novel electrode material for advanced supercapacitor applications

Parveen,

Cochran,

Zulfiqar

et al. 2023

RSC Adv.

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“…The FTIR analysis shows that the CB -AgNPs are coated with phytochemicals from plant extract that contain a variety of organic molecule functional groups (flavonoids, phenolics, tannins, and terpenoids), as depicted in Figure 4 , as reported earlier [ 46 , 47 , 48 ], because secondary metabolites and phytochemicals in high quantity also contribute to the pharmacological activities of these plants. As previously reported, C-H stretching vibration of the groups (CH 2 and CH 3 ) might prompt the absorption peak at 2918 cm −1 [ 49 ]. The peaks obtained at wavelengths of 1632 cm −1 and 1500 cm −1 indicate the formation of amide compounds.…”

Section: Discussionmentioning

confidence: 62%

Biogenic Synthesis, Characterization, and In Vitro Biological Evaluation of Silver Nanoparticles Using Cleome brachycarpa

Sumra

Zain

Saleem

et al. 2023

Plants

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The therapeutical attributes of silver nanoparticles (Ag-NPs) in both conditions (in vitro and in vivo) have been investigated using different plants. This study focused on the green chemistry approach that was employed to optimize the synthesis of silver nanoparticles (AgNPs) using Cleome brachycarpa aqueous extract as a reducing and stabilizing agent. The characterization of obtained CB-AgNPs was undertaken using UV-visible spectroscopy, Atomic-force microscopy (AFM), Fourier-Transform Infrared Spectroscopy (FTIR), scanning electron microscopy (SEM), and Energy-Dispersive X-ray (EDX) analysis. Results suggest that CB-AgNPs synthesized via stirring produced small-sized particles with more even distribution. The synthesized silver nanoparticles were spherical with a 20 to 80 nm size range. In vitro studies were used to analyze antioxidant, antidiabetic, and cytotoxic potential under different conditions. The results also indicated that CB-AgNPs may have significant potential as an antidiabetic in low concentrations, but also exhibited potential antioxidant activity at different concentrations. Moreover, the anticancer activity against the breast cell line (MCF-7) with IC50 reached up to 18 μg/mL. These results suggest that green synthesized silver nanoparticles provide a promising phytomedicine for the management of diabetes and cancer therapeutics.

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“…Nowadays, the combination of noble metal, metal oxide semiconductors, and rGO has been identified as an innovative approach to optimize the overall gas sensing performance. Detection of acetone can be achieved using Fe-doped rGO-decorated WO 3 nanocomposites, as reported by Sen et al Alsafari et al demonstrated that the photocatalytic degradation ability can be effectively improved by using WO 3 /CuO/rGO nanocomposites . Tran and colleagues examined the photocatalytic performance of Ag@WO 3 @rGO nanocomposites in simulated sun irradiation .…”

Section: Introductionmentioning

confidence: 96%

“…Detection of acetone can be achieved using Fe-doped rGOdecorated WO 3 nanocomposites, as reported by Sen et al 22 Alsafari et al demonstrated that the photocatalytic degradation ability can be effectively improved by using WO 3 /CuO/rGO nanocomposites. 23 Tran and colleagues examined the photocatalytic performance of Ag@WO 3 @rGO nanocomposites in simulated sun irradiation. 24 The application of UV illumination has demonstrated an enhancement in the gas sensing performance of nanocomposites.…”

Section: ■ Introductionmentioning

confidence: 99%

Ultraviolet-Induced Gas Sensing Performance of Ag/WO₃/rGO Nanocomposites for H₂S Gas Sensors

Gui,

Wu,

Tian

et al. 2023

ACS Appl. Electron. Mater.

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The attention toward cost-effective and highperformance H 2 S sensors is increasing due to the growing need for physical health and environmental monitoring. In this paper, Ag/WO 3 /reduced graphene oxide (rGO) nanocomposites were synthesized by using a microwave-assisted gas−liquid interfacial method. Nanomaterials with different Ag doping contents were successfully prepared with AgNO 3 as an additive. The Ag/WO 3 / rGO sensors exhibit remarkable selectivity toward H 2 S, and the gas sensing performances of Ag-doped WO 3 /rGO gas sensors are significantly better than those of WO 3 /rGO. At 150 °C, the response value of the 10 wt % Ag/WO 3 /rGO gas sensor to 100 ppm H 2 S is 204.5, which is 7 times higher than that of WO 3 /rGO, and the response/recovery time of the sensor is 9/49 s, respectively. Additionally, the gas sensing performance of the sensor is further enhanced under ultraviolet (UV) irradiation. The response value is enhanced to 685.8, which is 3 times higher than that without UV irradiation, and the response/recovery time is reduced to 8/38 s, respectively. The sensing mechanism is also discussed. This work offers a potential application for H 2 S detection in environmental monitoring and smart healthcare.

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A facile strategy to fabricate ternary WO3/CuO/rGO nano-composite for the enhanced photocatalytic degradation of multiple organic pollutants and antimicrobial activity

Cited by 43 publications

References 64 publications

Iron/vanadium co-doped tungsten oxide nanostructures anchored on graphitic carbon nitride sheets (FeV-WO₃@g-C₃N₄) as a cost-effective novel electrode material for advanced supercapacitor applications

Iron/vanadium co-doped tungsten oxide nanostructures anchored on graphitic carbon nitride sheets (FeV-WO₃@g-C₃N₄) as a cost-effective novel electrode material for advanced supercapacitor applications

Biogenic Synthesis, Characterization, and In Vitro Biological Evaluation of Silver Nanoparticles Using Cleome brachycarpa

Ultraviolet-Induced Gas Sensing Performance of Ag/WO₃/rGO Nanocomposites for H₂S Gas Sensors

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A facile strategy to fabricate ternary WO3/CuO/rGO nano-composite for the enhanced photocatalytic degradation of multiple organic pollutants and antimicrobial activity

Cited by 43 publications

References 64 publications

Iron/vanadium co-doped tungsten oxide nanostructures anchored on graphitic carbon nitride sheets (FeV-WO3@g-C3N4) as a cost-effective novel electrode material for advanced supercapacitor applications

Iron/vanadium co-doped tungsten oxide nanostructures anchored on graphitic carbon nitride sheets (FeV-WO3@g-C3N4) as a cost-effective novel electrode material for advanced supercapacitor applications

Biogenic Synthesis, Characterization, and In Vitro Biological Evaluation of Silver Nanoparticles Using Cleome brachycarpa

Ultraviolet-Induced Gas Sensing Performance of Ag/WO3/rGO Nanocomposites for H2S Gas Sensors

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Iron/vanadium co-doped tungsten oxide nanostructures anchored on graphitic carbon nitride sheets (FeV-WO₃@g-C₃N₄) as a cost-effective novel electrode material for advanced supercapacitor applications

Iron/vanadium co-doped tungsten oxide nanostructures anchored on graphitic carbon nitride sheets (FeV-WO₃@g-C₃N₄) as a cost-effective novel electrode material for advanced supercapacitor applications

Ultraviolet-Induced Gas Sensing Performance of Ag/WO₃/rGO Nanocomposites for H₂S Gas Sensors