Hydrothermal growth of ZnO nanoparticles on the surface of two kinds of Ti
            <sub>3</sub>
            C
            <sub>2</sub>
            co‐catalysts with different interlayer spacing towards enhanced photocatalytic activity

Two‐dimensional MXenes are excellent photocatalysts. However, their low oxidation stability makes controlling photocatalytic processes challenging. For the first time, this work elucidates the influence of the oxidation stabilization of model 2D Ti3C2Tx MXene on its optical and photocatalytic properties. The delaminated MXene is synthesized via two well‐established approaches: hydrofluoric acid/tetramethylammonium hydroxide (TMAOH‐MXene) and minimum intensive layer delamination with hydrochloric acid/lithium fluoride (MILD‐MXene) and then stabilized by L‐ascorbic acid. Both MXenes at a minimal concentration of 32 mg L−1 show almost 100% effectiveness in the 180‐min photocatalytic decomposition of 25 mg L−1 model methylene blue and bromocresol green dyes. Industrial viability is achieved by decomposing a commercial textile dye having 100 times higher concentration than that of model dyes. In such conditions, MILD‐MXene is the most efficient due to less wide optical band gap than TMAOH‐MXene. The MILD‐MXene required only few seconds of UV light, simulated white light, or 500 nm (cyan) light irradiation to fully decompose the dye. The photocatalytic mechanism of action is associated with the interplay between surface dye adsorption and the reactive oxygen species generated by MXene under light irradiation. Importantly, both MXenes are successfully reused and retained approximately 70% of their activity.

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“…Thus, massive L u o e t a l . [57] Ti 3 C 2 -MB --180 7.56 Liu et al [58] Ti 3 C 2 1 C R e) -100 120 80 Tariq et al [59] Ti…”

Section: Mxenes' Photocatalytic Propertiesmentioning

confidence: 99%

Photocatalytic Activity of the Oxidation Stabilized Ti₃C₂T_x MXene in Decomposing Methylene Blue, Bromocresol Green and Commercial Textile Dye

et al. 2023

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“…Moreover, it is widely used as a cocatalyst in the field of photocatalysis. [19][20][21] At present, the primary preparation method of Ti 3 C 2 MXene is liquid etching. Ti 3 C 2 MXene is obtained by etching Ti 3 AlC 2 with HF.…”

mentioning

confidence: 99%

Halogenated Ti₃C₂ MXenes Prepared by Microwave Molten Salt for Hg⁰ Photo‐Oxidation

Xie

Peng

et al. 2023

Adv Funct Materials

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Ti 3 C 2 MXenes with different halogen modifications are prepared rapidly and efficiently by microwave molten salt method, and the MXene surface functional group modification is successfully achieved to address the problems of low purity, complex functional groups, and uncontrollable energy band structure of MXenes obtained by traditional liquid phase etching. Among them, the modification of the iodine (I) functional group onto the surface of Ti 3 C 2 changes the energy band structure and band gap, resulting in easier photoexcitation and more photogenerated carriers. The increased Fermi energy is closer to the conduction band, the decreased surface work function weakens the electron confinement ability. The photogenerated carriers can migrate to the surface of the material more easily with extended lifetime, so the activity of the catalyst is improved. Further, for gaseous monomeric mercury (Hg 0 ) photo-oxidative removal, Ti 3 C 2 -I 2 exhibits 85.5% efficiency of Hg 0 photo-oxidative removal under visible light. Based on the experimental characterization and density functional theory calculations, a mechanism for the photooxidative removal of Hg° from Ti 3 C 2 -I 2 MXene is proposed, which provides a valuable strategy for studying Ti 3 C 2 MXenes in the field of photocatalysis.

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Interfacial oxygen vacancy modulated ZIF-8-derived ZnO/CuS for the photocatalytic degradation of antibiotic and organic pollutants: DFT calculation and degradation pathways

Mariappan,

Mannu,

Thiruppathiraja

et al. 2023

Chemical Engineering Journal

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Hydrothermal growth of ZnO nanoparticles on the surface of two kinds of Ti ₃ C ₂ co‐catalysts with different interlayer spacing towards enhanced photocatalytic activity

Cited by 4 publications

References 52 publications

Photocatalytic Activity of the Oxidation Stabilized Ti₃C₂T_x MXene in Decomposing Methylene Blue, Bromocresol Green and Commercial Textile Dye

Photocatalytic Activity of the Oxidation Stabilized Ti₃C₂T_x MXene in Decomposing Methylene Blue, Bromocresol Green and Commercial Textile Dye

Halogenated Ti₃C₂ MXenes Prepared by Microwave Molten Salt for Hg⁰ Photo‐Oxidation

Interfacial oxygen vacancy modulated ZIF-8-derived ZnO/CuS for the photocatalytic degradation of antibiotic and organic pollutants: DFT calculation and degradation pathways

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Hydrothermal growth of ZnO nanoparticles on the surface of two kinds of Ti 3 C 2 co‐catalysts with different interlayer spacing towards enhanced photocatalytic activity

Cited by 4 publications

References 52 publications

Photocatalytic Activity of the Oxidation Stabilized Ti3C2Tx MXene in Decomposing Methylene Blue, Bromocresol Green and Commercial Textile Dye

Photocatalytic Activity of the Oxidation Stabilized Ti3C2Tx MXene in Decomposing Methylene Blue, Bromocresol Green and Commercial Textile Dye

Halogenated Ti3C2 MXenes Prepared by Microwave Molten Salt for Hg0 Photo‐Oxidation

Interfacial oxygen vacancy modulated ZIF-8-derived ZnO/CuS for the photocatalytic degradation of antibiotic and organic pollutants: DFT calculation and degradation pathways

Contact Info

Product

Resources

About

Hydrothermal growth of ZnO nanoparticles on the surface of two kinds of Ti ₃ C ₂ co‐catalysts with different interlayer spacing towards enhanced photocatalytic activity

Photocatalytic Activity of the Oxidation Stabilized Ti₃C₂T_x MXene in Decomposing Methylene Blue, Bromocresol Green and Commercial Textile Dye

Photocatalytic Activity of the Oxidation Stabilized Ti₃C₂T_x MXene in Decomposing Methylene Blue, Bromocresol Green and Commercial Textile Dye

Halogenated Ti₃C₂ MXenes Prepared by Microwave Molten Salt for Hg⁰ Photo‐Oxidation