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Enhanced Solar Photocatalytic Reduction of Cr(VI) Using a (ZnO/CuO) Nanocomposite Grafted onto a Polyester Membrane for Wastewater Treatment

Ashar, Ambreen ; Bhatti, Ijaz Ahmad ; Jilani, Asim ; [et al.]

MDPI AG ; 2021

In: Polymers Vol. 13, No. 22 ( 2021-11-22), p. 4047-

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In: Polymers, MDPI AG, Vol. 13, No. 22 ( 2021-11-22), p. 4047-

Abstract: Among chemical water pollutants, Cr(VI) is a highly toxic heavy metal; solar photocatalysis is a cost-effective method to reduce Cr(VI) to innocuous Cr(III). In this research work, an efficient and economically feasible ZnO/CuO nanocomposite was grafted onto the polyester fabric ZnO/CuO/PF through the SILAR method. Characterization by SEM, EDX, XRD, and DRS confirmed the successful grafting of highly crystalline, solar active nanoflakes of ZnO/CuO nanocomposite onto the polyester fabric. The grafting of the ZnO/CuO nanocomposite was confirmed by FTIR analysis of the ZnO/CuO/PF membrane. A solar photocatalytic reduction reaction of Cr(VI) was carried out by ZnO/CuO/PF under natural sunlight (solar flux 5–6 kW h/m2). The response surface methodology was employed to determine the interactive effect of three reaction variables: initial concentration of Cr(VI), pH, and solar irradiation time. According to UV/Vis spectrophotometry, 97% of chromium was removed from wastewater in acidic conditions after four hours of sunlight irradiation. ZnO/CuO/PF demonstrated reusability for 11 batches of wastewater under natural sunlight. Evaluation of Cr(VI) reduction was also executed by complexation of Cr(VI) and Cr(III) with 1, 5-diphenylcarbazide. The total percentage removal of Cr after solar photocatalysis was carried out by AAS of the wastewater sample. The ZnO/CuO/PF enhanced the reduction of Cr(VI) metal from wastewater remarkably.

Type of Medium: Online Resource

ISSN: 2073-4360

URL: Article

DOI: 10.3390/polym13224047

Language: English

Publisher: MDPI AG

Publication Date: 2021

detail.hit.zdb_id: 2527146-5

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Complexes with Atomic Gold Ions: Efficient Bis-Ligand Formation

Duensing, Felix ; Gruber, Elisabeth ; Martini, Paul ; [et al.]

MDPI AG ; 2021

In: Molecules Vol. 26, No. 12 ( 2021-06-08), p. 3484-

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In: Molecules, MDPI AG, Vol. 26, No. 12 ( 2021-06-08), p. 3484-

Abstract: Complexes of atomic gold with a variety of ligands have been formed by passing helium nanodroplets (HNDs) through two pickup cells containing gold vapor and the vapor of another dopant, namely a rare gas, a diatomic molecule (H2, N2, O2, I2, P2), or various polyatomic molecules (H2O, CO2, SF6, C6H6, adamantane, imidazole, dicyclopentadiene, and fullerene). The doped HNDs were irradiated by electrons; ensuing cations were identified in a high-resolution mass spectrometer. Anions were detected for benzene, dicyclopentadiene, and fullerene. For most ligands L, the abundance distribution of AuLn+ versus size n displays a remarkable enhancement at n = 2. The propensity towards bis-ligand formation is attributed to the formation of covalent bonds in Au+L2 which adopt a dumbbell structure, L-Au+-L, as previously found for L = Xe and C60. Another interesting observation is the effect of gold on the degree of ionization-induced intramolecular fragmentation. For most systems gold enhances the fragmentation, i.e., intramolecular fragmentation in AuLn+ is larger than in pure Ln+. Hydrogen, on the other hand, behaves differently, as intramolecular fragmentation in Au(H2)n+ is weaker than in pure (H2)n+ by an order of magnitude.

Type of Medium: Online Resource

ISSN: 1420-3049

URL: Article

DOI: 10.3390/molecules26123484

Language: English

Publisher: MDPI AG

Publication Date: 2021

detail.hit.zdb_id: 2008644-1

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Rice Residue-Based Biochar Mitigates N2O Emission from Acid Red Soil

Aamer, Muhammad ; Bilal Chattha, Muhammad ; Mahmood, Athar ; [et al.]

MDPI AG ; 2021

In: Agronomy Vol. 11, No. 12 ( 2021-12-03), p. 2462-

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In: Agronomy, MDPI AG, Vol. 11, No. 12 ( 2021-12-03), p. 2462-

Abstract: Biochar application is considered an effective approach to mitigating nitrous oxide (N2O) emissions from agricultural soils. However, the mechanisms of biochar to mitigate N2O emissions from acidic red soils are still unclear. Therefore, the present study aims to underpin mechanisms associated with rice residue-based biochar in mitigating N2O emissions from acid soils. Soil treated with different rates of biochar control, from 1%, 2%, and 3%, and different soil properties, including soil pH, microbial biomass carbon (MBC), NH4+-N, NO3−-N, genes abundance (nosZ, nirK, AOA, and AOB), and enzymatic activities ((nitrate reductase (NR) and urease (UR)) were studied. The application of 3% biochar increased the soil pH (5.21–6.48), MBC (565–685 mg/kg), NO3−-N contents (24.23–44.5 mg/kg), genes abundance (nosZ, nirK, AOA, and AOB) and UR activity. The highest N2O emission (43.60 μg kg−1) was recorded and compared with the application of 1% (26.3 μg kg−1), 2% (18.33 μg kg−1), and 3% biochar (8.13 μg kg−1). Applying 3% biochar effectively reduced the N2O emission due to increased soil pH, MBC, NO3−-N contents, genes abundance (nosZ, nirK, AOA, and AOB), and weakened NH4+-N and NR activities. Therefore, increasing soil pH, genes abundance, and weakened nitrification following the addition of rice residue-based biochar can effectively reduce the N2O emissions from acidic red soils.

Type of Medium: Online Resource

ISSN: 2073-4395

URL: Article

DOI: 10.3390/agronomy11122462

Language: English

Publisher: MDPI AG

Publication Date: 2021

detail.hit.zdb_id: 2607043-1

SSG: 23

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