Issue 1, 2024

MXene and Xene: promising frontier beyond graphene in tissue engineering and regenerative medicine

Abstract

The emergence of 2D nanomaterials (2D NMs), which was initiated by the isolation of graphene (G) in 2004, revolutionized various biomedical applications, including bioimaging and -sensing, drug delivery, and tissue engineering, owing to their unique physicochemical and biological properties. Building on the success of G, a novel class of monoelemental 2D NMs, known as Xenes, has recently emerged, offering distinct advantages in the fields of tissue engineering and regenerative medicine. In this review, we focus on the comparison of G and Xene materials for use in fabricating tissue engineering scaffolds. After a brief introduction to the basic physicochemical properties of these materials, recent representative studies are classified in terms of the engineered tissue, i.e., bone, cartilage, neural, muscle, and skin tissues. We analyze several methods of improving the clinical potential of Xene-laden scaffolds using state-of-the-art fabrication technologies and innovative biomaterials. Despite the considerable advantages of Xene materials, critical concerns, such as biocompatibility, biodistribution and regulatory challenges, should be considered. This review and collaborative efforts should advance the field of Xene-based tissue engineering and enable innovative, effective solutions for use in future tissue regeneration.

Graphical abstract: MXene and Xene: promising frontier beyond graphene in tissue engineering and regenerative medicine

Article information

Article type
Review Article
Submitted
26 Way 2023
Accepted
13 Xim 2023
First published
16 Xim 2023
This article is Open Access
Creative Commons BY-NC license

Nanoscale Horiz., 2024,9, 93-117

MXene and Xene: promising frontier beyond graphene in tissue engineering and regenerative medicine

M. S. Kang, H. J. Jang, H. J. Jo, I. S. Raja and D. Han, Nanoscale Horiz., 2024, 9, 93 DOI: 10.1039/D3NH00428G

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