Litcius/Paper detail

Application and recent progress of MXene-based bioactive materials in wound management

Jiahao Guo, Xiaodong Zhu, Beibei Liang, Xuelian Gu, Cong Wu, Ang Li, Wei Li

2025Nano TransMed25 citationsDOIOpen Access PDF

Abstract

Wound management is one of the major challenges in the biomedical field, where wound ulceration and bacterial infections cause systemic inflammatory reactions or scarring in patients, seriously affecting the quality of life and causing great economic pressure. Smart bioactive materials offer new therapeutic strategies for wound management and monitoring, providing a tailored option for wound repair. MXene, as a 2D functional and tunable material, exhibits unique advantages and enormous potential in promoting cell growth, angiogenesis, recruiting immune cells, avoiding infections, and biological signal transmission. This review details the benefits of MXene-based materials in the field of tissue repair and addresses the key challenges faced by different wounds, reflecting excellent bioactivity and organismal suitability. Notably, MXene can function as a smart surrogate device, enabling precise assessments for wound monitoring and care. This development signifies a paradigm shift towards a novel era of non-invasive monitoring of the healing cycle. Nevertheless, strategies for regenerative tissue engineering employing MXene-based materials encounter certain challenges and difficulties, which include ensuring long-term bioactive function, developing novel material types, and meeting individual clinical needs. Finally, the future research directions and technological developments of MXene-based materials in wound management were briefly discussed. • MXene with excellent biocompatibility, antimicrobial activity, and modifiability shows great potential for wound management. • This review describes the mechanism of wound healing and the application and progress of MXene in the corresponding process. • Based on the features and interdisciplinary strategies of MXene, it provides guidelines for clinical wound management needs.

Topics & Concepts

NanotechnologyMaterials scienceComputer scienceBusinessProcess managementMXene and MAX Phase MaterialsGraphene and Nanomaterials ApplicationsAdvanced Sensor and Energy Harvesting Materials