Preparation of a novel Z-scheme KTaO3/FeVO4/Bi2O3 nanocomposite for efficient sonocatalytic degradation of ceftriaxone sodium

Qiao, Jing; Lv, Mengyao; Qu, Zhihui; Zhang, Meng; Cui, Xin; Wang, Di; Piao, Congcong; Liu, Zhiyu; Wang, Jun; Song, Youtao

doi:10.1016/j.scitotenv.2019.06.416

Cited by 44 publications

(5 citation statements)

References 55 publications

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“…The difference in RE% can be explained by the following reasons. First, the decrease in the threshold energy for sono-induced bubble generation [46]. Second, the increase of active sites for nucleation [47].…”

Section: Sonocatalytic Activity Evaluationmentioning

confidence: 99%

Fabrication of black TiO_2−x/NiFe₂O₄ supported on diatomaceous earth with enhanced sonocatalytic activity for ibuprofen mitigation

Zhang²

2020

Nanotechnology

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This study reports a facile fabrication of black TiO2−x /NiFe2O4 (Ti3+ self-doped titania coupled with nickel ferrite), an efficient sonocatalyst for ibuprofen (IBP) mitigation. Compared with TiO2−x or NiFe2O4, TiO2−x /NiFe2O4 heterojunction displayed higher sonocatalytic activity, and their immobilization onto diatomaceous earth further enhanced mitigation efficiency due to the synergy between adsorption and sonocatalysis. About 96.7% of 10 mg l−1 IBP was removed in 100 min using 0.7 g l−1 catalyst at pH = 6, with the ultrasonic power of 144 W and frequency of 60 KHz. Quenching experiment results demonstrated the roles of reactive species. The intermediates during IBP sono-oxidation were determined by HPLC-MS method, and the acute toxicity was evaluated. Furthermore, the reaction mechanism was proposed. The sonocatalyst revealed excellent reusability, suggesting itself promising for wastewater treatment.

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Section: Sonocatalytic Activity Evaluationmentioning

confidence: 99%

Fabrication of black TiO_2−x/NiFe₂O₄ supported on diatomaceous earth with enhanced sonocatalytic activity for ibuprofen mitigation

Zhang²

2020

Nanotechnology

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“…Sonoelectrochemical catalytic degradation onto a nanocoated electrode led to a drug removal efficiency of 94%, at a current density of 8 mA•cm −2 and an ultrasound frequency of 45 kHz [11]. Optimizing of experimental parameters of photo-induced and sonocatalytic degradation revealed a ceftriaxone removal efficiency ranging between 70% and 95% [12][13][14][15][16]. These methods were also used for ceftriaxone degradation in the presence of carbon nitride (g-C 3 N 4 ) and different composite materials such as Ag-CsPbBr 3 , ZnSe, BiWO 6 [17][18][19][20][21].…”

Section: Introductionmentioning

confidence: 99%

Ceftriaxone Degradation in the Presence of Sodium Halides Investigated by Electrochemical Methods Assisted by UV-Vis Spectrophotometry

et al. 2021

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The electrochemical stability of ceftriaxone (CFTX), belonging to the third generation of cephalosporin antibiotics, was studied by electrochemical measurements recorded on a platinum electrode (Pt) in aqueous solutions containing sodium halides. The electrochemical behavior of ceftriaxone was investigated by cyclic voltammetry (CV) and constant current density electrolysis assisted by UV-Vis spectrophotometry. Cyclic voltammetry highlighted that the addition of CFTX in sodium halide solutions leads to significant changes in the hysteresis characteristics due to specific interactions with active species from electrolytes, as well as with the platinum electrode surface. After CV, when an exterior electric stimulus in short time (40 s) was applied, the UV-Vis spectra illustrated that CFTX is stable in the presence of F- ions, it is electro(degraded/transformed) in the presence of Cl- and Br- ions and interacts instantly with I- species. Electrolysis at constant current density confirms the results obtained from cyclic voltammetry, showing that (i) in the presence of fluoride ions CFTX gradually decomposes, but not completely, in about 60 min, without identifying a reaction product; (ii) chloride and bromide ions determine the almost complete CFTX electro(degradation/transformation) in 10 and 5 min, respectively, with completion of the electro-transformation reaction after 60 and 30 min, respectively; (iii) instantaneous interactions between CFTX and the iodide ions occurred.

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“…By analyzing the valence state and position of binding energy, it is found the binding energy of Cu 2p orbits from Cu 2 O/K 2 Ta 2 O 6 decreases obviously compared with that of pristine Cu 2 O. Additionally, the binding energies of K 2p 3/2 and 2p 1/2 orbitals in pristine K 2 Ta 2 O 6 are located at 292.05 and 294.85 eV, shifting to the higher energy in the composite Cu 2 O/K 2 Ta 2 O 6 (Figure 5b). Similarly, the binding energies at 25.20 and 27.10 eV ascribed to Ta 5 + (4f 7/2 and 4f 5/2 ) [46] shift also to the higher energy in the composite Cu 2 O/ K 2 Ta 2 O 6 (Figure 5c). These results infer the electrons are transferred from K 2 Ta 2 O 6 to Cu 2 O when two components composite together.…”

Section: Resultsmentioning

confidence: 78%

Precisely Tailoring Selectivity via Target Group's Steered Adsorption on Cu₂O/Tantalate Catalysts for Hydrogenation of 3‐Nitrostyrene

Borjigin

et al. 2022

ChemCatChem

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The selective hydrogenation of nitroarenes bearing competitive reducible groups to produce functionalized amino compounds has wide application in industrial production. However, to control only reducing the target group is still a challenge. Here, Cu 2 O/M 2 Ta 2 O 6 (M=H, Li, Na, K, Ag, Bi) catalysts were prepared to evaluate their catalytic performance using 3-nitrostyrene (3-NS) as a model reaction. The results confirm pristine Cu 2 O has a highly activity to hydrogenate 3-NS but low selectivity with the coexisted products of 3-vinylaniline (3-VA), 3-ethylaniline(3-EA) and 1-ethyl-3-nitrobenzene (3-NE), whereas the independent tantalate can converse 3-NS to sole product 3-VA via absolutely preferential reduction of À NO 2 moiety but with a low conversion rate. Importantly, if combining Cu 2 O and tantalate, the activity and selectivity of the appointed product were all obviously increased. Furthermore, the hydrogenation activity of 3-NS to generate 3-VA is positively related with the catalysts' intrinsic basicity and the preferential adsorption toward À NO 2 group.

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Preparation of a novel Z-scheme KTaO3/FeVO4/Bi2O3 nanocomposite for efficient sonocatalytic degradation of ceftriaxone sodium

Cited by 44 publications

References 55 publications

Fabrication of black TiO_2−x/NiFe₂O₄ supported on diatomaceous earth with enhanced sonocatalytic activity for ibuprofen mitigation

Fabrication of black TiO_2−x/NiFe₂O₄ supported on diatomaceous earth with enhanced sonocatalytic activity for ibuprofen mitigation

Ceftriaxone Degradation in the Presence of Sodium Halides Investigated by Electrochemical Methods Assisted by UV-Vis Spectrophotometry

Precisely Tailoring Selectivity via Target Group's Steered Adsorption on Cu₂O/Tantalate Catalysts for Hydrogenation of 3‐Nitrostyrene

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Preparation of a novel Z-scheme KTaO3/FeVO4/Bi2O3 nanocomposite for efficient sonocatalytic degradation of ceftriaxone sodium

Cited by 44 publications

References 55 publications

Fabrication of black TiO2−x /NiFe2O4 supported on diatomaceous earth with enhanced sonocatalytic activity for ibuprofen mitigation

Fabrication of black TiO2−x /NiFe2O4 supported on diatomaceous earth with enhanced sonocatalytic activity for ibuprofen mitigation

Ceftriaxone Degradation in the Presence of Sodium Halides Investigated by Electrochemical Methods Assisted by UV-Vis Spectrophotometry

Precisely Tailoring Selectivity via Target Group's Steered Adsorption on Cu2O/Tantalate Catalysts for Hydrogenation of 3‐Nitrostyrene

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Fabrication of black TiO_2−x/NiFe₂O₄ supported on diatomaceous earth with enhanced sonocatalytic activity for ibuprofen mitigation

Fabrication of black TiO_2−x/NiFe₂O₄ supported on diatomaceous earth with enhanced sonocatalytic activity for ibuprofen mitigation

Precisely Tailoring Selectivity via Target Group's Steered Adsorption on Cu₂O/Tantalate Catalysts for Hydrogenation of 3‐Nitrostyrene