Modified graphene quantum dots-zinc oxide nanocomposites for photocatalytic degradation of organic dyes and commercial herbicide

Phophayu, Suchada; Pimpang, Pichitchai; Wongrerkdee, Sawitree; Sujinnapram, Supphadate; Wongrerkdee, Sutthipoj

doi:10.1177/0731684419891245

Cited by 23 publications

(11 citation statements)

References 46 publications

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“…High dislocation density may cause difficulties in carrier movement, resulting in carrier recombination in crystal [45] . On the other hand, low dislocation density will offer a facile situation of carrier movement in crystals [46] . The effect is considered a good parameter to improve the carrier life time at the nanocomposite surface for better photocatalytic application.…”

Section: Resultsmentioning

confidence: 99%

High Visual Colorimetric Determination of F‐ Ions by Exploiting the Inhibition of Oxidase Mimicking Activity of FeMnO4@GQD Nanocomposite

Ali

Sikdar²,

Basak

et al. 2022

ChemistrySelect

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Human health is significantly impacted by fluorides in water.Too much fluoride consumption through drinking water causes chronic dental and bones diseases. A trace number of fluorides in drinking water can be determined, which is immensely vital for human health. In the current study, we have designed a visual colorimetric chemosensor assay using the brilliant oxidase mimicking activity of biosynthesized FeMnO4@GQD nanocomposite. FeMnO4@GQD nanocomposites showed excellent mimicking activity in mild acid medium pH‐5, and obtained a Vmax value of 1.71603×10−6 and an important Km value of 0.0684 mM based on Hanes‐Woolf kinetics. The robust nanocomposites were shown to be significant stability for detecting oxidases under conditions. As a consequence, oxidase‐like activity was inhibited in the presence of fluoride ions. A linear correlation was established by the development of blue colour with fluoride ions concentration and appeared at a low limit of detection of 1.2 μg/ml without interfering with other common ions.

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Section: Resultsmentioning

confidence: 99%

High Visual Colorimetric Determination of F‐ Ions by Exploiting the Inhibition of Oxidase Mimicking Activity of FeMnO4@GQD Nanocomposite

Ali

Sikdar²,

Basak

et al. 2022

ChemistrySelect

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“…( 5) [14]. αhν = A(hν − E g ) n (5) where α and A are constants, h is the Plank's constant,  is the frequency, and n is ½ for direct band gap semiconductors as for ZnO. For E g estimation, an extrapolation from the linear part up to the h-axis was fitted.…”

Section: Resultsmentioning

confidence: 99%

“…To improve the photocatalytic activity of ZnO, it has been demonstrated with several improvements in charge separations, lifetimes, and surface areas. Phopayu et al modified ZnO by using graphene quantum dots (GQDs) doping for extending the crystalline structure of the GQDs-ZnO nanocomposites [5]. The extended structure has reducing grain boundary density, thus causing a lower electron-hole pair recombination at the grain boundary.…”

Section: Introductionmentioning

confidence: 99%

Untitled

2021

DJNB

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In this work, Y-doped ZnO nanoparticles were precipitately synthesized for various yttrium molar percentage values ranging from 0 to 5%, and then utilized as photocatalysts to demonstrate methylene blue degradation. Morphology shows that the particle size of pure ZnO is 113.7733.26 nm, which is reduced to the minimum value less than one-third for the Y-doped ZnO samples. As a result, surface-to-volume ratios of Y-doped ZnO samples have successfully increased due to their decreased size. This decrease in particle size is consistent with the small crystalline size, primarily due to low crystallization in the presence of yttrium doping. However, the expansion of the crystal structure is observed. Chemical surface structures point to the major vibration of ZnO. However, some carbon-relating groups remain to appear. Optical property reveals similar trends for all Y-doped ZnO samples. The estimated band gap energy (E g ) was reduced to the minimum value for the 4 mol% condition. For use as a photocatalyst, the appropriate Y-doped ZnO for 4 mol% yttrium doping presents the maximum degradation efficiency of 61.19%. The improvement in photocatalytic degradation is caused by the synergy of decreased particle size and reduced E g . Therefore, yttrium plays a role to decrease particle size and reduce E g of Y-doped ZnO materials, thus leading to enhance photocatalytic performance.

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“…The findings suggest that a very high concentration of 5,000 and 60,000 mg/L COD may be found in stormwater runoff and silage discharges, respectively. The starting precursors were first added in the synthesis of the graphene quantum dots-ZnO nanocomposites with the graphene quantum dots solution (Phophayu, Pimpang, Wongrerkdee, Sujinnapram, & Wongrerkdee, 2020). The synthesis was performed during the process of precipitation.…”

Section: • Practitioner Pointsmentioning

confidence: 99%

“…The starting precursors were first added in the synthesis of the graphene quantum dots‐ZnO nanocomposites with the graphene quantum dots solution (Phophayu, Pimpang, Wongrerkdee, Sujinnapram, & Wongrerkdee, 2020). The synthesis was performed during the process of precipitation.…”

Section: Agricultural Wastewatermentioning

confidence: 99%