Litcius/Paper detail

Interface Polarization Strengthened Microwave Catalysis of MoS<sub>2</sub>/FeS/Rhein for the Therapy of Bacteria‐Infected Osteomyelitis

Liguo Jin, Xiangmei Liu, Yufeng Zheng, Zhaoyang Li, Yu Zhang, Shengli Zhu, Hui Jiang, Zhenduo Cui, Paul K. Chu, Shuilin Wu

2022Advanced Functional Materials64 citationsDOI

Abstract

Abstract Staphylococcus aureus ( S. aureus )‐induced osteomyelitis is fatal to patients, even leading to death without timely debridement processing, which is difficult to be treated by antibiotics or phototherapy due to deep infections. Herein, a microwave (MW) assisted bacteria‐killing strategy for treating S. aureus ‐induced osteomyelitis by using MW‐responsive molybdenum disulfide (MoS 2 )/ferrous sulfide (FeS) heterojunction with anti‐inflammatory herb of rhein (Rhe) is reported. Under medical MW irradiation, MoS 2 /FeS/Rhe effectively eradicates S. aureus ‐infected rat tibial osteomyelitis. The robust therapeutic effects of MoS 2 /FeS/Rhe are ascribed to the anti‐inflammatory effect of Rhe, the enhanced MW thermal and dynamic effects of MoS 2 /FeS. MoS 2 /FeS is composed of S‐Mo‐S‐Fe‐S stacked layers sandwiched in between by weak Van Der Waals interactions, which means that ions or molecules can be retained in the space between the layers. Under MW irradiation, dipoles or ions are aligned in an oscillating electric field, which cause dipolar polarization and ionic conduction, leading to molecular friction and dielectric loss to generate MW heat. In addition, the dipole orientation polarization caused by the interfacial polarization of MoS 2 /FeS is the main factor for microwave catalysis. This kind of MW responsive nanocomposite comprising inorganics and herbs may solve the challenge of how to effectively treat deep tissue infections.

Topics & Concepts

Materials sciencePolarization (electrochemistry)SulfideChemistryPhysical chemistryMetallurgyMXene and MAX Phase MaterialsBone and Joint DiseasesSarcoidosis and Beryllium Toxicity Research