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Green, HF‐Free Synthesis of MXene Quantum Dots and their Photocatalytic Activity for Hydrogen Evolution

Rubén Ramírez‐GrauInstituto Universitario de Tecnología Química Universitat Politècnica de Valencia‐Consejo Superior de Investigaciones Científicas Valencia 46022 SpainArianna MelilloInstituto Universitario de Tecnología Química Universitat Politècnica de Valencia‐Consejo Superior de Investigaciones Científicas Valencia 46022 SpainSilvio OsellaChemical and Biological Systems Simulation Lab Centre of New Technologies University of Warsaw Warsaw 02–097 PolandAbdullah M. AsiriCenter of Excellence for Advanced Materials King Abdulaziz University Jeddah 21589 Saudi ArabiaHermenegildo Garcı́aCenter of Excellence for Advanced Materials King Abdulaziz University Jeddah 21589 Saudi ArabiaAna PrimoInstituto Universitario de Tecnología Química Universitat Politècnica de Valencia‐Consejo Superior de Investigaciones Científicas Valencia 46022 Spain
2023en
ABI

Аннотация

Abstract A general methodology to prepare MXene quantum dots (MxQDs) with yields over 20% by liquid‐phase laser ablation of the MAX phase is reported. Mechanical and thermal shock by 532 nm laser pulses (7 ns fwhp, 50 mJ × pulse −1 , 1 Hz pulse frequency) produces MAX etching and exfoliation to form MXene QDs, avoiding the use of HF. The process can be followed by absorption and emission spectroscopy and by dynamic laser scattering and it appears to be general, being applied to Ti 3 AlC 2 , Ti 2 AlC, Nb 2 AlC, and V 2 AlC MAX phases. Density functional theory calculations indicate that, depending on the surface terminal groups, the diminution of the MXene size to the nanometric scale makes it possible to control the band gap of the MXene. The photocatalytic activity of these MXene QDs for hydrogen evolution has been observed, reaching an H 2 production for the most efficient Ti 3 C 2 QDs as high as 2.02 mmol × g −1 × h −1 .

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