The novel Carbon Nanotube-assisted development of highly porous CaZrO3-CaO xerogel with boosted sorption activity towards high-temperature cyclic CO2 capture

2023

Sci Rep

In this study, we fabricated an economical, non-toxic, and convenient magnetic nanocomposite of CuFe2O4 nanoparticles (NPs)/carbon quantum dots (CQDs) of citric acid via the co-precipitation method. Afterward, obtained magnetic nanocomposite was used as a nanocatalyst to reduce the ortho-nitroaniline (o-NA) and para-nitroaniline (p-NA) using a reducer agent of sodium borohydride (NaBH4). To investigate the functional groups, crystallite, structure, morphology, and nanoparticle size of the prepared nanocomposite, FT-IR, XRD, TEM, BET, and SEM were employed. The catalytic performance of the nanocatalyst was experimentally evaluated based on the ultraviolet–visible absorbance to assess the reduction of o-NA and p-NA. The acquired outcomes illustrated that the prepared heterogeneous catalyst significantly enhanced the reduction of o-NA and p-NA substrates. The analysis of the absorption showed a remarkable decrease for ortho-NA and para-NA at λmax = 415 nm in 27 s and λmax = 380 nm in 8 s, respectively. The constant rate (kapp) of ortho-NA and para-NA at the stated λmax was 8.39 × 10–2 s−1 and 5.48 × 10–1 s−1. The most highlighted result of this work was that the CuFe2O4@CQD nanocomposite fabricated from citric acid performed better than absolute CuFe2O4 NPs, since nanocomposite containing CQDs had a more significant impact than copper ferrite NPs.

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confidence: 99%

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confidence: 99%

The catalytic performance of CuFe2O4@CQD nanocomposite as a high-perform heterogeneous nanocatalyst in nitroaniline group reduction

Naghash‐Hamed¹,

Arsalani

2023

Sci Rep

“…Figure shows N 2 adsorption–desorption isotherm profiles for Fe/Clin-A-beads and Fe/Clin-Ch-beads. Derived from the symmetry in shape, isotherms are classified as type II mode, fundamentally demonstrating nanoporous configuration, including the presence of mesopores. − Both beads show the H3 hysteresis loop type, indicating the aggregates of compact particles resulting in the formation of slit-containing pores. − The plotted isotherms at 0 ≤ P / P 0 ≤ 0.2 for both beads indicate mesoporous texture arising from the multi-layer adsorption by the internal surface of beads …”

Section: Results and Discussionmentioning

confidence: 99%

Nitrate Removal Performance of Different Granular Adsorbents Using a Novel Fe-Exchanged Nanoporous Clinoptilolite

Nami

2023

Ind. Eng. Chem. Res.

The primary purpose of this investigation is to assess the nitrate removal efficiency of the two diverse synthesized beads from natural clinoptilolite modified with iron cations (Fe/Clin). Beads were prepared utilizing nanoporous Fe/Clin by employing alginate (A) and chitosan (Ch). X-ray diffraction, Fourier transform infrared, energy dispersive X-ray spectroscopy, field emission scanning electron microscopy, and Brunauer–Emmett–Teller methods were operated to scrutinize the clinoptilolite, Fe/Clin, Fe/Clin-A-bead, and Fe/Clin-Ch-bead. A comprehensive batch adsorption investigation was performed using both synthesized specimens to determine the effective parameters. The effects of pH, bead dosage, and time were assessed. The optimum removal rates of 86.13 and 88.79% were computed for Fe/Clin-A-bead and Fe/Clin-Ch-bead at the optimized dosage and pH. Moreover, the best nitrate removal performance was at 4 and 3 g/L for Fe/Clin-A-bead and Fe/Clin-Ch-bead, respectively. The removal rates of 2, 3, 4, and 5 g/L of Fe/Clin-A-beads were 78.80, 82.40, 86.13, and 87.45%, respectively. On the other hand, Fe/Clin-Ch-beads had better removal performance at the measured range. The removal rates of 2, 3, 4, and 5 g/L of Fe/Clin-Ch-beads were 83.35, 88.79, 89.50, 92.25, and 90.04%, respectively. The optimal adsorption time for Fe/Clin-A-bead and Fe/Clin-Ch-bead was 75 and 60 min, respectively. Both beads’ isotherms were investigated using Langmuir, Freundlich, and Dubinin–Radushkevich (D-R) isotherms. The maximum adsorption using Langmuir and D-R isotherms was 24.39 and 7.06 mg/g for the alginate bead and 36.63 mg/g and 10.93 mg/g for the chitosan bead, respectively. The kinetics of both beads were also studied utilizing Lagergren first-order, pseudo-second-order, and intraparticle diffusion. The kinetic model of both beads was best described by the pseudo-second-order.

“…Among different nanoparticles, high refractive index metal oxides, such as CeO 2 , TiO 2 , ZrO 2 , and ZnO have been widely used 18 – 20 . Titanium oxide (TiO 2 ) is considered as a practical nanoparticle in surface protection applications since it has a wide energy band gap of 3 eV , showing a strong UV light cutoff.…”

Section: Introductionmentioning

confidence: 99%

UV-shielding properties of a cost-effective hybrid PMMA-based thin film coatings using TiO2 and ZnO nanoparticles: a comprehensive evaluation

Yousefi

Heris

et al. 2023

Sci Rep

This study aimed to assess the UV-shielding features of the PMMA-based thin film coatings with the addition of TiO2 and ZnO nanoparticles as nanofillers considering different contents. Furthermore, the effect of TiO2/ZnO nanohybrids at different ratios and concentrations was examined. The XRD, FTIR, SEM, and EDX analyses characterized the prepared films' functional groups, structure, and morphology. Meanwhile, the coatings' optical properties and UV-protecting capability were investigated by ultraviolet–visible (UV–Vis) spectroscopy. The UV–Vis spectroscopic study revealed that as the concentration of nanoparticles increased in the hybrid-coated PMMA, the absorption in the UVA region increased. Overall, it can be concluded that the optimal coatings for PMMA were 0.1 wt% TiO2, 0.1 wt% ZnO, and 0.025:0.025 wt% TiO2: ZnO nanohybrid. Considering the acquired FT-IR of PMMA with different content of nanoparticles before and after exposure to the UV irradiation, for some films, it was confirmed that the polymer-based thin films degraded after 720 h, with either decreasing or increasing intensity of the degraded polymer, peak shifting, and band broadening. Notably, the FTIR results were in good agreement with UV–Vis outcomes. In addition, XRD diffraction peaks demonstrated that the pure PMMA matrix and PMMA coating films did not show any characteristic peaks indicating the presence of nanoparticles. All diffraction patterns were similar with and without any nanoparticles. Therefore, it depicted the amorphous nature of polymer thin film.