Recent advances in the medical applications of two-dimensional MXene nanosheets.

Gokul Paramasivam, Siva Prasad Yadavali, Raji Atchudan, Sandeep Arya, Ashok K Sundramoorthy
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Abstract

MXene-based materials are gaining significant attention due to their exceptional properties and adaptability, leading to diverse advanced applications. In 3D printing, MXenes enhance the performance of photoblockers, photocurable inks, and composites, enabling the creation of precise, flexible and durable structures. MXene/siloxane composites offer both flexibility and resilience, while MXene/spidroin scaffolds provide excellent biocompatibility and mechanical strength, making them ideal for tissue engineering. Sustainable inks such as MXene/cellulose nano inks, alginate/MXene and MXene/emulsion underscore their role in high-performance printed materials. In cancer therapy, MXenes enable innovative photothermal and photodynamic therapies, where nanosheets generate heat and reactive oxygen species to destroy cancer cells. MXene theranostic nanoprobes combine imaging and treatment, while MXene/niobium composites support hyperthermia therapy and MXene/cellulose hydrogels allow controlled drug release. Additionally, MXene-based nanozymes enhance catalytic activity, and MXene/gold nanorods enable near-infrared-triggered drug release for noninvasive treatments. In antimicrobial applications, MXene composites enhance material durability and hygiene, providing anticorrosive protection for metals. For instance, MXene/graphene, MXene/polycaprolactone nanofibers and MXene/chitosan hydrogels exhibit significant antibacterial activity. Additionally, MXene sensors have been developed to detect antibiotic residues. MXene cryogels also promote tissue regeneration, while MXene nanohybrids facilitate photocatalytic antibacterial therapy. These advancements underscore the potential of MXenes in regenerative medicine and other fields.

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二维 MXene 纳米片医疗应用的最新进展。
二甲氧烯基材料因其卓越的性能和适应性而备受关注,并被广泛应用于各种先进领域。在三维打印中,MXene 可提高光阻、光固化油墨和复合材料的性能,从而制造出精确、灵活和耐用的结构。二氧化二烯/硅氧烷复合材料具有柔韧性和回弹性,而二氧化二烯/狮头石竹烯支架具有出色的生物相容性和机械强度,是组织工程的理想材料。可持续油墨(如二甲亚甲基纤维素/纤维素纳米油墨、藻酸盐/二甲亚甲基纤维素和二甲亚甲基纤维素/乳液)强调了二甲亚甲基纤维素在高性能印刷材料中的作用。在癌症治疗方面,二甲亚甲基可实现创新的光热和光动力疗法,纳米片可产生热量和活性氧来破坏癌细胞。二氧化二烯治疗纳米探针将成像和治疗相结合,二氧化二烯/铌复合材料支持热疗,二氧化二烯/纤维素水凝胶可控制药物释放。此外,基于 MXene 的纳米酶可提高催化活性,MXene/金纳米棒可实现近红外触发的药物释放,用于非侵入性治疗。在抗菌应用中,MXene 复合材料可提高材料的耐久性和卫生性,为金属提供防腐保护。例如,MXene/石墨烯、MXene/聚己内酯纳米纤维和 MXene/ 壳聚糖水凝胶具有显著的抗菌活性。此外,还开发出了可检测抗生素残留的 MXene 传感器。MXene 低温凝胶还能促进组织再生,而 MXene 纳米混合物则有助于光催化抗菌治疗。这些进展凸显了二氧化二烯在再生医学和其他领域的潜力。
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