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Chelation-Based Route to Aluminum-Free Layered Transition Metal Carbides (MXenes)

Luis R. De Jesús, Alyssa S. Rosas, Pratibha Mahale, Thomas E. Mallouk

2023ACS Omega18 citationsDOIOpen Access PDF

Abstract

High Resolution Image Download MS PowerPoint Slide MXenes are of much interest because of their electrochemical, electronic, and surface chemical properties that arise from their structure and stoichiometry. The integrity and the nature of the terminal groups on the basal planes of MXene sheets depend strongly on the method used to etch the parent MAX (M = transition metal, A = Al, X = C, N, B) compound. Aluminum removal typically involves a high concentration of aqueous HF, HCl/LiF mixtures, or fluoride solutions of strong acids. HF etching is problematic because it leaves insoluble AlF 3 in the product, degrades the crystallinity of the nanosheets, and results in the termination of the basal planes with F, O, or OH groups. Here, we demonstrate the use of HF at a low concentration in tandem with a chelating agent, N, N ′-dihydroxyoctanediamide (suberohydroxamic acid), to selectively etch the archetypical MAX compound Ti 3 AlC 2 at room temperature. X-ray absorption spectroscopy (XAS) of the etched materials shows that the carbide nature of bonding in the parent MAX structure is retained in the MXene layers. The stability of the MXene in aqueous suspensions is also significantly improved relative to MXene products made by etching in concentrated HF solutions.

Topics & Concepts

MXenesCarbideAqueous solutionX-ray absorption spectroscopyX-ray photoelectron spectroscopyCrystallinityMaterials scienceTransition metalStoichiometryChelationInorganic chemistryChemical engineeringAbsorption spectroscopyChemistryNanotechnologyOrganic chemistryMetallurgyComposite materialCatalysisEngineeringQuantum mechanicsPhysicsMXene and MAX Phase Materials2D Materials and ApplicationsGraphene research and applications
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