Abstract
(Nanocarbons Division Robert C. Haddon Research Award) MXenes and Their Hybrids with Graphene and Other Materials
Meeting abstracts (Electrochemical Society), v MA2025-01(15), 1146
11 Jul 2025
Abstract
2D carbides, nitrides, and carbonitrides of early transition metals known as MXenes are the most chemically and structurally diverse family of inorganic materials discovered this century. MXenes are among the few nanomaterials that have jumped into the limelight not only because of their 2D morphology, exotic structures or attractive properties but also because of numerous practical applications. The family of MXenes has been expanding rapidly since the discovery of Ti3C2 at Drexel University in 2011. About 80 different MXenes have been reported, dozens of solid solutions have been made, and the structure and properties of numerous other MXenes have been predicted. The availability of solid solutions on M and X sites, multi-element high-entropy MXenes with up to 9 metals, control of surface terminations, and the discovery of out-of-plane ordered double-M o-MXenes (e.g., Mo2TiC2), as well as in-plane orderedi-MAX phases and their i-MXenes offer the potential for producing an almost infinite number of new 2D materials. This presentation will describe the state of the art in the synthesis of those MXenes by wet chemical and molten salt etching of MAX phases, CVD, and topochemical transformation of graphite and oxides. Their delamination into single-layer 2D flakes and assembly into films will also be covered. Synthesis-structure-properties relations of MXenes will be described. Hydrophilic surfaces of wet chemically etched MXenes allow environmentally friendly and scalable manufacturing and processing of MXenes from dispersions in water, with no surfactant or binder added. The hydrophobic halogen-terminated MXenes are better dispersible in organic solvents. The versatile chemistry of the MXene family renders their properties tunable for a large variety of energy-related, electronic, optical, biomedical, and other applications, but the synthesis method, surface termination and delamination largely determine the properties and the range of applications of MXenes. Finally, hybridization of MXenes with graphene, cellulose nanofibers, metals and polymers allows design of multifunctional materials with unique combinations of properties (often, mutually exclusive) that are not available in conventional materials. We expect artificial intelligence and machine learning to guide defelopment of a new generation of multifunctional materials assembled from an almost infinite number of 2D building blocks like MXenes.
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Details
- Title
- (Nanocarbons Division Robert C. Haddon Research Award) MXenes and Their Hybrids with Graphene and Other Materials
- Creators
- Yury Gogotsi - Drexel University
- Publication Details
- Meeting abstracts (Electrochemical Society), v MA2025-01(15), 1146
- Publisher
- The Electrochemical Society, Inc
- Number of pages
- 1
- Resource Type
- Abstract
- Language
- English
- Academic Unit
- Materials Science and Engineering
- Other Identifier
- 991022065224904721