Hydrogen-bonded organic framework core–shell composite for synergistic antimicrobial therapy

IF 13.9 Q1 CHEMISTRY, MULTIDISCIPLINARY Aggregate (Hoboken, N.J.) Pub Date : 2024-01-04 DOI:10.1002/agt2.481
Jian Xiao, Acharya Ramachandra Mahammed Shaheer, Chen Liu, Tian-Fu Liu, Rong Cao
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Abstract

Hydrogen-bonded organic frameworks (HOFs) are crystalline porous materials with permanent voids formed via self-assembly of organic molecules through hydrogen bonding and intermolecular forces. Further combination of HOFs with functional material would broaden their application horizon but were less explored in existing literature. Herein, a highly porous and photosensitive HOF was successfully coated onto upconversion nanoparticles (UCNPs) to construct a core–shell structure named UNCPs@PFC-73-Ni. To enhance spectral overlap and maximize energy conversion efficiency, this study utilized the Er and Tm co-doped UCNPs, which can effectively convert infrared light into visible light emission thereby exciting the porphyrin shell. Subsequent investigation reveals that the composite exhibits significant photodynamic and photothermal effects under infrared light. Encouraged by its noticeable photoactivity, UCNPs@PFC-73-Ni was evaluated as an antibacterial agent against Escherichia coli. Notably, significant antibacterial efficacy was observed, highlighting the potential of UCNPs@PFC-73-Ni as an effective antibacterial agent under infrared light irradiation.

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用于协同抗菌治疗的氢键有机框架核壳复合材料
氢键有机框架(HOFs)是有机分子通过氢键和分子间作用力自组装形成的具有永久空隙的结晶多孔材料。将 HOFs 与功能材料进一步结合可拓宽其应用范围,但现有文献对其的研究较少。本文成功地将一种高多孔性光敏 HOF 涂覆到上转换纳米粒子(UCNPs)上,构建了一种名为 UNCPs@PFC-73-Ni 的核壳结构。为了增强光谱重叠并最大限度地提高能量转换效率,本研究采用了 Er 和 Tm 共掺杂的 UCNPs,它能有效地将红外光转换为可见光发射,从而激发卟啉壳。随后的研究发现,该复合材料在红外光下具有显著的光动力和光热效应。由于 UCNPs@PFC-73-Ni 具有明显的光活性,因此将其作为抗大肠杆菌的抗菌剂进行了评估。结果表明,UCNPs@PFC-73-Ni 具有明显的抗菌效果,这凸显了 UCNPs@PFC-73-Ni 在红外光照射下作为有效抗菌剂的潜力。
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审稿时长
7 weeks
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