Photothermal and Photodynamic Synergistic Effect of the MXene/SnS2 Heterojunction Endows the Poly(l-lactic acid) Scaffold with Antibacterial Activity

光热治疗 乳酸 抗菌活性 脚手架 异质结 光热效应 化学 材料科学 细菌 纳米技术 光电子学 生物医学工程 生物 遗传学 医学
作者
Cijun Shuai,Xingming Long,Binxin Sun,Tiantian He,Xiong Shuai,Guoyong Wang,Shuping Peng
出处
期刊:ACS applied polymer materials [American Chemical Society]
卷期号:6 (13): 7827-7839 被引量:12
标识
DOI:10.1021/acsapm.4c01336
摘要

Bacterial infection is a severe challenge faced by artificial bone transplantation, which might cause delayed bone healing or even transplant failure. Photodynamic therapy (PDT) has garnered widespread attention as a treatment for infections due to its noninvasiveness, few side effects, and high spatiotemporal selectivity. Nevertheless, owing to the bacterial membrane obstacle, it is difficult for exogenous reactive oxygen species (ROS) to penetrate into bacteria, which leads to an unsatisfactory antibacterial effect. Herein, a heterojunction of Ti2C3 nanosheets/tin disulfide (MXene/SnS2) is designed, which integrates photothermal and photodynamic properties. Then, MXene/SnS2 was incorporated into a poly-l-lactic acid powder (PLLA) matrix to fabricate an artificial bone scaffold with selective laser sintering (SLS) technology. Under near-infrared laser irradiation, SnS2 can strengthen the near-infrared light absorption of MXene to generate local hyperthermia, thus enhancing bacterial membrane permeability. Meanwhile, MXene/SnS2 enhances charge transfer and inhibits electron–hole pair separation, thereby generating more ROS that can penetrate the bacterial interior. The results indicated that this antibacterial strategy has effective antibacterial activity, and the antibacterial rate reached over 90%. Overall, this research presents an attractive antibacterial strategy for implant-related infection.
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