Triphasic synthesis of MXenes with uniform and controlled halogen terminations

Publication date

2026

Authors

Li, Dongqi
Zheng, Wenhao
Ghorbani-Asl, Mahdi
Scheiter, Juliane
Sobczak, Kamil
Kretschmer, Silvan
Polčák, Josef
Jadhao, Pranjali Hirasing
Michałowski, Paweł P.
Yu, Ruoling

Editors

Advisors

Supervisors

Document Type

Article
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License

cc_by

Abstract

Surface terminations critically govern the properties of two-dimensional transition metal carbides and/or nitrides (MXenes), yet a universal strategy to obtain MXenes with uniform and controllable terminations remains elusive. Here we introduce a ‘gas–liquid–solid’ triphasic etching strategy that employs iodine vapour, halide molten salts and MAX phases to produce MXenes with pure and precisely tunable halogen terminations (Cl, Br, I or their combinations). In this process, halide molten salts dissolve iodine via interhalogen anion formation while efficiently transporting etching by-products. The resulting MXenes retain excellent structural integrity, yielding uniformly ordered surfaces. As a representative example, Ti3C2Cl2 shows a 160-fold enhancement in macroscopic conductivity and a 13-fold enhancement in terahertz conductivity relative to conventional Cl/O-terminated Ti3C2, attributed to minimized electron trapping and scattering. Beyond single-halogen terminations, the gas–liquid–solid approach enables dual- and triple-halogen termination control, providing a general platform for tailoring MXene surface chemistry towards advanced (opto)electronic applications.

Keywords

Chemistry (miscellaneous), Organic Chemistry, Inorganic Chemistry, Materials Chemistry

Citation

Li, D, Zheng, W, Ghorbani-Asl, M, Scheiter, J, Sobczak, K, Kretschmer, S, Polčák, J, Jadhao, P H, Michałowski, P P, Yu, R, Zhang, J, Liu, J, Du, J, Guo, Q, Zschech, E, Šikola, T, Bonn, M, Pérez, N, Nielsch, K, Krasheninnikov, A V, Wang, H I, Yu, M & Feng, X 2026, 'Triphasic synthesis of MXenes with uniform and controlled halogen terminations', Nature Synthesis, vol. 5, no. 4, pp. 516-526. https://doi.org/10.1038/s44160-025-00970-w