Adsorption on alumina nanopores with conical shape

Bruschi, L.; Mistura, Giampaolo; Negri, Fabrizia; Coasne, Benoît; Mayamei, Yashar; Lee, Woo

doi:10.1039/c8nr06265j

Cited by 5 publications

(2 citation statements)

References 36 publications

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“…Figure 5 shows that the isotherms fit with type I and IV isotherms, as described in IUPAC classification [40], which are typical for materials containing micro and mesopores. Moreover, the hysteresis of the photocatalysts is very uniform, suggesting that the pores have a conical shape [41][42][43]. Table 2 presents the textural properties of the activated carbon and composite materials.…”

Section: Surface Area and Pore Sizementioning

confidence: 99%

Sol-Gel Synthesis of New TiO2 Ball/Activated Carbon Photocatalyst and Its Application for Degradation of Three Hormones: 17α-EthinylEstradiol, Estrone, and β-Estradiol

Mouchtari

Mersly

Belkodia

et al. 2023

Toxics

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Many approaches have been investigated to eliminate pharmaceuticals in wastewater treatment plants during the last decades. However, a lack of sustainable and efficient solutions exists for the removal of hormones by advanced oxidation processes. The aim of this study was to synthesize and test new photoactive bio composites for the elimination of these molecules in wastewater effluents. The new materials were obtained from the activated carbon (AC) of Arganian spinosa tree nutshells and titanium tetrachloride by the sol gel method. SEM analysis allowed one to confirm the formation of TiO2 particles homogeneously dispersed at the surface of AC with a controlled titanium dioxide mass ratio, a specific TiO2 anatase structure, and a highly specific surface area, evidenced by ATG, XRD, and BET analysis, respectively. The obtained composites were revealed to quantitatively absorb carbamazepine (CBZ), which is used as a referred pharmaceutical, and leading to its total elimination after 40 min under irradiation with the most effective material. TiO2 high content disfavors CBZ adsorption but improves its degradation. In the presence of the composite, three hormones (17α-ethinylestradiol, estrone, and β-estradiol) are partially adsorbed onto the composite and totally degraded after 60 min under UV light exposure. This study constitutes a promising solution for the efficient treatment of wastewater contaminated by hormones.

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Section: Surface Area and Pore Sizementioning

confidence: 99%

Sol-Gel Synthesis of New TiO2 Ball/Activated Carbon Photocatalyst and Its Application for Degradation of Three Hormones: 17α-EthinylEstradiol, Estrone, and β-Estradiol

Mouchtari

Mersly

Belkodia

et al. 2023

Toxics

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“…In contrast to the argon adsorption isotherms measured on cylindrical channels, striking results were obtained for the three different channel configurations prepared in this work, which might be caused by liquid nucleation at the narrow nanochannel ends (Figure 9B). [ 103 ] Whereas, due to the lack of deep investigation, the mechanism behind this phenomenon does not seem to be thoroughly explained. As mentioned in the last paragraph, the AAO was possessed of some ion channels in the barrier layer of alumina.…”

Section: Solid‐state Ion Nanochannelsmentioning

confidence: 99%

Bioinspired Solid‐State Ion Nanochannels: Insight from Channel Fabrication and Ion Transport

Yun

Chen

Wang

et al. 2023

Adv Materials Technologies

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With specific structures and unique features, biological ion channel proteins play crucial roles in many life processes of living organisms. Inspired by the biological ion channel proteins, researchers have developed a variety of artificial nanochannels to explore the mechanisms of selective ion transport and achieve applications in molecular filters, biosensors, and energy conversion devices. The ion transport behavior in nanochannels is mainly governed by the interaction between ions and the nanochannels interface. Herein, the structures, fabrication methods, and ion transport properties of biomimetic solid-state ion nanochannels are reviewed, with emphasis on the transport performance and mechanism of nanochannels. In addition, the current challenges faced and the future outlooks of these solid-sate ion nanochannels for practical applications are discussed.

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