MXene synthesis in a semi-continuous 3D-printed PVDF flow reactor
MXene synthesis in a semi-continuous 3D-printed PVDF flow reactor
Two-dimensional transition metal carbides, nitrides and carbonitrides known as MXenes represent a promising class of functional materials for electrochemical energy storage, catalysis, electromagnetic shielding, and optoelectronics. Typical synthesis methods require highly concentrated acids and HF-containing or HF-forming chemicals, under batch conditions. Environmentally friendly, safe, efficient, and scalable synthesis methods for MXenes have been identified as the number one research challenge for MXene research over the next decade. Here we use flow chemistry to present a semi-continuous synthesis of Ti3C2Tz in a custom 3D-printed reactor. The synthesis is safer and is the first step towards scalable methods, yielding fully etched MXenes with better removal of Al from the starting MAX phase compared to the equivalent batch procedure.
2166-2170
Clark, Molly J.
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Oakley, Alice E.
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Zhelev, Nikolay
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Carravetta, Marina
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Byrne, Thomas
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Nightingale, Adrian M.
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Bimbo, Nuno
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19 March 2025
Clark, Molly J.
f8dc735f-3442-45a2-a989-fcea4c6ac755
Oakley, Alice E.
78ad819d-33bb-4c77-af90-9dcc96ed52e0
Zhelev, Nikolay
76a8a0dd-0c24-4483-a217-b17ee26bd79b
Carravetta, Marina
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Byrne, Thomas
da7b808d-be06-4b43-bd46-0cecc6a7eb37
Nightingale, Adrian M.
4b51311d-c6c3-40d5-a13f-ab8917031ab3
Bimbo, Nuno
53d9fc24-e2c1-4e2d-8d75-8dc640d8adda
Clark, Molly J., Oakley, Alice E., Zhelev, Nikolay, Carravetta, Marina, Byrne, Thomas, Nightingale, Adrian M. and Bimbo, Nuno
(2025)
MXene synthesis in a semi-continuous 3D-printed PVDF flow reactor.
Nanoscale Adv., 7 (8), .
(doi:10.1039/D4NA00991F).
Abstract
Two-dimensional transition metal carbides, nitrides and carbonitrides known as MXenes represent a promising class of functional materials for electrochemical energy storage, catalysis, electromagnetic shielding, and optoelectronics. Typical synthesis methods require highly concentrated acids and HF-containing or HF-forming chemicals, under batch conditions. Environmentally friendly, safe, efficient, and scalable synthesis methods for MXenes have been identified as the number one research challenge for MXene research over the next decade. Here we use flow chemistry to present a semi-continuous synthesis of Ti3C2Tz in a custom 3D-printed reactor. The synthesis is safer and is the first step towards scalable methods, yielding fully etched MXenes with better removal of Al from the starting MAX phase compared to the equivalent batch procedure.
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Clark et al (2R)
- Accepted Manuscript
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d4na00991f
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Accepted/In Press date: 13 March 2025
Published date: 19 March 2025
Identifiers
Local EPrints ID: 500554
URI: http://eprints.soton.ac.uk/id/eprint/500554
ISSN: 2040-3372
PURE UUID: 3bccc799-e256-4a1f-869d-47a728a5aec5
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Date deposited: 06 May 2025 16:37
Last modified: 22 Aug 2025 02:28
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Author:
Molly J. Clark
Author:
Alice E. Oakley
Author:
Thomas Byrne
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