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. 2021 Oct;33(39):e2103393.
doi: 10.1002/adma.202103393. Epub 2021 Aug 16.

Ten Years of Progress in the Synthesis and Development of MXenes

Michael Naguib  1 Michel W Barsoum  2 Yury Gogotsi  2   3
Affiliations

Ten Years of Progress in the Synthesis and Development of MXenes

Michael Naguib et al. Adv Mater. 2021 Oct.

Abstract

Since their discovery in 2011, the number of 2D transition metal carbides and nitrides (MXenes) has steadily increased. Currently more than 40 MXene compositions exist. The ultimate number is far greater and in time they may develop into the largest family of 2D materials known. MXenes' unique properties, such as their metal-like electrical conductivity reaching ≈20 000 S cm-1 , render them quite useful in a large number of applications, including energy storage, optoelectronic, biomedical, communications, and environmental. The number of MXene papers and patents published has been growing quickly. The first MXene generation is synthesized using selective etching of metal layers from the MAX phases, layered transition metal carbides and carbonitrides using hydrofluoric acid. Since then, multiple synthesis approaches have been developed, including selective etching in a mixture of fluoride salts and various acids, non-aqueous etchants, halogens, and molten salts, allowing for the synthesis of new MXenes with better control over their surface chemistries. Herein, a brief historical overview of the first 10 years of MXene research and a perspective on their synthesis and future development are provided. The fact that their production is readily scalable in aqueous environments, with high yields bodes well for their commercialization.

Keywords: 2D materials; MXenes; carbides; nanomaterial synthesis; nitrides.

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