Exfoliation, delamination, and oxidation stability of molten salt etched Nb2CTz MXene nanosheets

Kailash Arole; Jackson W. Blivin; Atiana M. Bruce; Swarnima Athavale; Ian J. Echols; Huaixuan Cao; Zeyi Tan; Miladin Radovic; Jodie L. Lutkenhaus; Micah J. Green

doi:10.1039/D2CC02237K

Exfoliation, delamination, and oxidation stability of molten salt etched Nb₂CT_z MXene nanosheets†

Kailash Arole,

^a Jackson W. Blivin,^b Atiana M. Bruce,^b Swarnima Athavale,^b Ian J. Echols,^b Huaixuan Cao,^b Zeyi Tan,^a Miladin Radovic,^a Jodie L. Lutkenhaus

^ab and Micah J. Green

*^ab

Author affiliations

* Corresponding authors

^a Department of Materials Science and Engineering, Texas A&M University, College Station, TX, USA
E-mail: micah.green@tamu.edu

^b Artie McFerrin Department of Chemical Engineering, Texas A&M University, College Station, TX, USA

Abstract

Despite numerous prior reports of molten salt etching of MAX phases, few of these reports achieved water-dispersible MXene nanosheets, and none for Nb-based MXenes. Here we demonstrate the synthesis and aqueous dispersibility of Nb₂CT_Z nanosheets via molten salt etching and utilizing a KOH wash to add hydroxyl surface groups. However, little is known about the oxidation of molten salt etched MXenes compared to acid-etched MXenes. Our results indicate slower oxidation behavior for MXenes etched by molten salts, which may be due to the decreased amount of oxygen-containing terminal groups.

Chemical Communications

Exfoliation, delamination, and oxidation stability of molten salt etched Nb₂CT_z MXene nanosheets†

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Exfoliation, delamination, and oxidation stability of molten salt etched Nb₂CT_z MXene nanosheets

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