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. 2025 Mar 12;17(10):15877-15885.
doi: 10.1021/acsami.5c00314. Epub 2025 Mar 3.

Chemically Tunable Ti3C2Tx MXene Surfaces

Kevinilo P Marquez  1   2 Mia Angela Judicpa  1   3 Roy Alvin J Malenab  1 Rufus Mart Ceasar R Ramos  1 Elmer Austria Jr  4 Behnam Akhavan  5   6 Luke C Henderson  1 Ken Aldren S Usman  1 Jizhen Zhang  1 Joselito M Razal  1
Affiliations

Chemically Tunable Ti3C2Tx MXene Surfaces

Kevinilo P Marquez et al. ACS Appl Mater Interfaces. .

Abstract

Modifying MXene surfaces is an effective strategy for controlling interactions with various chemical environments. Here, we demonstrate that treating Ti3C2Tx MXene surfaces with dilute acids and bases results in surfaces enriched with oxygen species capable of reversible proton exchange. These treatments produce surfaces with varying dispersibilities in different organic solvents that can be toggled between "on" and "off" states through successive treatments. Furthermore, we found that protonated MXenes exhibit slower ion kinetics due to surface passivation, whereas deprotonated MXenes show the opposite effect. This research opens avenues toward more versatile solution-based surface modification techniques that may rely less on specific MXene precursors and synthesis methods.

Keywords: MXene; dispersions; solvent exchange; surface modification; surface termination.

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