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生物成因壳聚糖功能化二维层状 MoS 混合纳米复合材料的合成及其在药物应用中的性能:体外抗菌和抗癌活性。

Synthesis of biogenic chitosan-functionalized 2D layered MoS hybrid nanocomposite and its performance in pharmaceutical applications: In-vitro antibacterial and anticancer activity.

机构信息

Thin Film and Nanoscience Research Lab, PG and Research Department of Physics, Alagappa Government Arts College, Affiliated by Alagappa University, Karaikudi 630 003, India.

Advanced Green Chemistry Lab, Department of Industrial Chemistry, School of Chemical Sciences, Alagappa University, Karaikudi 630 003, Tamil Nadu, India.

出版信息

Int J Biol Macromol. 2020 Apr 15;149:1019-1033. doi: 10.1016/j.ijbiomac.2020.02.003. Epub 2020 Feb 3.

DOI:10.1016/j.ijbiomac.2020.02.003
PMID:32027897
Abstract

A bacterial and viral infection causes life threatening diseases owing to the abuse of antibiotics and the development of antibiotic resistance microbes. Currently, biopolymers have been considered as the most promising materials in the medical field. Herein, the biogenic chitosan-functionalized MoS nanocomposite was prepared by the hydrothermal method with the liquid exfoliation process. The X-ray diffraction (XRD) results of chitosan-MoS hybrid nanocomposite revealed that MoS nanoparticle was found to be 42 nm with a hexagonal crystal structure. FTIR and Raman spectrum revealed that the nitrogen functionalities in the chitosan interacted with MoS to form the nanocomposite. The XPS spectrum of chitosan-MoS nanocomposite confirms that C, N, O, Mo, and S exist in the nanocomposite. Thermal gravimetric analysis (TGA) and Differential thermal analysis (DTA) analysis showed that the chitosan-MoS nanocomposite has higher thermal stability up to 600 °C. In the antibacterial application the chitosan-MoS hybrid nanocomposite shows zones of inhibition against S. aureus as 22, 28, and 32 mm, and against E. coli as 26, 30, and 35 mm. In the anticancer analysis, chitosan-MoS hybrid nanocomposites showed a maximum cell inhibition of 65.45% at 100 μg/mL, resulting in the most significant MCF-7 cell inhibition.

摘要

细菌和病毒感染会导致危及生命的疾病,这是由于抗生素的滥用和抗生素耐药微生物的发展。目前,生物聚合物已被认为是医学领域最有前途的材料。在此,通过水热法和液相剥离工艺制备了生物源壳聚糖功能化 MoS 纳米复合材料。壳聚糖-MoS 杂化纳米复合材料的 X 射线衍射(XRD)结果表明,MoS 纳米颗粒的尺寸为 42nm,具有六方晶体结构。FTIR 和 Raman 光谱表明,壳聚糖中的氮官能团与 MoS 相互作用形成了纳米复合材料。壳聚糖-MoS 纳米复合材料的 XPS 谱证实了纳米复合材料中存在 C、N、O、Mo 和 S。热重分析(TGA)和差示热分析(DTA)分析表明,壳聚糖-MoS 纳米复合材料在高达 600°C 时具有更高的热稳定性。在抗菌应用中,壳聚糖-MoS 杂化纳米复合材料对金黄色葡萄球菌的抑菌圈分别为 22、28 和 32mm,对大肠杆菌的抑菌圈分别为 26、30 和 35mm。在抗癌分析中,壳聚糖-MoS 杂化纳米复合材料在 100μg/mL 时对 MCF-7 细胞的抑制率最高达到 65.45%,对 MCF-7 细胞的抑制作用最为显著。

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