药用植物提取物生物辅助合成具有抗菌活性的Ag/AgCl纳米颗粒

IF 2.7 4区化学 Q2 CHEMISTRY, INORGANIC & NUCLEAR Journal of Cluster Science Pub Date : 2024-12-03 DOI:10.1007/s10876-024-02722-w

Jorge Luis Torres-López, Stephania Lázaro-Mass, Susana De la Rosa-García, Mayra A. Alvarez-Lemus, Abraham Gómez-Rivera, Rosendo López-González, Carlos Ernesto Lobato-García, Getsemani Morales-Mendoza, Sergio Gómez-Cornelio

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引用次数: 0

摘要

抗生素耐药性的增加需要可持续的合成抗菌纳米颗粒的方法。本研究主要研究了生物辅助合成银/氯化银纳米颗粒（Ag/AgCl-NPs）的方法。测定了Ag/AgCl-NPs中多酚和黄酮类化合物的含量，并利用傅里叶变换红外光谱分析了其官能团对其性能的影响。研究了60°C和500°C热处理对NPs大小、形态和抗菌效果的影响。紫外可见光谱分析表明，吸收峰在430 ~ 449 nm之间，x射线衍射分析证实了金属Ag和立方AgCl结构的存在，晶粒尺寸分别为11 ~ 51 nm和28 ~ 60 nm。动态光散射显示，在60°C下，流体力学尺寸可达127.2±0.9 nm，在500°C下，流体力学尺寸可达348.9±10.7 nm。场发射扫描电镜图显示出具有明显团聚的准球形形貌；显示颗粒尺寸在55±11和81±28 nm在60°C，并高达135±65 nm在500°C。x射线光电子能谱证实了NP表面上的金属银（Ag⁰）、有机分子和吸收的氯化物。Pearson相关分析表明，多酚含量与NPs产量呈显著正相关（r = 0.922），与黄酮类含量呈显著负相关（r = - 0.996）。此外，水动力尺寸与对金黄色葡萄球菌的抗菌活性呈负相关（r = - 0.854）。在60°C和500°C干燥后，对大肠杆菌和金黄色葡萄球菌进行抑菌试验，对大肠杆菌的最低抑菌浓度低于19µg/mL。金针菇提取物和罗氏病毒提取物合成的Ag/AgCl-NPs对金黄色葡萄球菌的最低抑制浓度（MIC）均在312µg/mL以上，金针菇提取物合成的最低抑制浓度（MIC）为156µg/mL。这些结果突出了药用植物提取物在合成具有增强抗菌性能的Ag/AgCl方面的潜力。

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Medicinal Plants Extract for the Bio-Assisted Synthesis of Ag/AgCl Nanoparticles with Antibacterial Activity

The increasing antibiotic resistance necessitates sustainable methods for synthesizing antibacterial nanoparticles. This study focuses on the bio-assisted synthesis of silver/silver chloride nanoparticles (Ag/AgCl-NPs) using aqueous extracts of Acalypha arvensis, Hampea rovirosae, and Inga jinicuil. Polyphenols and flavonoids were quantified, and functional groups were analyzed via Fourier-transform infrared to assess their influence on the properties of Ag/AgCl-NPs. The effects of thermal treatment at 60 and 500 °C on the NPs’ size, morphology, and antibacterial efficacy were assessed. UV–Vis spectroscopy indicated absorption peaks between 430 and 449 nm, while X-ray diffraction analysis confirmed the presence of metallic Ag and a cubic AgCl structure, with crystallite sizes ranging from 11–51 and 28–60 nm, respectively. Dynamic light scattering showed hydrodynamic sizes of up to 127.2 ± 0.9 nm at 60 °C and up to 348.9 ± 10.7 nm at 500 °C. Field emission scanning electron microscopy micrographs exhibited a quasi-spherical morphology with significant agglomeration; showing particle sizes between 55 ± 11 and 81 ± 28 nm at 60 °C, and up to 135 ± 65 nm at 500 °C. X-ray photoelectron spectroscopy confirmed the metallic silver (Ag⁰), organic molecules, and absorbed chlorides on the NP surface. Pearson correlation analysis indicated a strong positive correlation between polyphenol content and NPs yield (r = 0.922), while it indicated a strong negative correlation with flavonoid content (r = −0.996). Additionally, a negative correlation was found between hydrodynamic size and antibacterial activity against Staphylococcus aureus (r = −0.854). The Ag/AgCl-NPs, after drying at 60 and 500 °C, were tested against Escherichia coli and S. aureus with minimum bactericidal concentrations below 19 µg/mL against E. coli. Minimum inhibitory concentration (MIC) for Ag/AgCl-NPs synthesized with A. arvensis and H. rovirosae extracts were above 312 µg/mL for S. aureus, while those synthesized with I. jinicuil showed MIC as low as 156 µg/mL. These results highlight the potential of medicinal plant extracts in the synthesis of Ag/AgCl with enhanced antibacterial properties.

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