通过银和聚丙烯酸掺杂的CeO纳米结构的分子对接分析证实的异常催化和抗菌活性。

Anomalous catalytic and antibacterial activity confirmed by molecular docking analysis of silver and polyacrylic acid doped CeO nanostructures.

作者信息

Ikram Muhammad, Karim Rizwan, Haider Ali, Shahzadi Anum, Algaradah Mohammed M, Ul-Hamid Anwar, Nabgan Walid, Fouda Ahmed M, Ali Salamat

机构信息

Solar Cell Applications Research Lab, Department of Physics, Government College University Lahore Lahore 54000 Punjab Pakistan

Department of Physics, Riphah Institute of Computing and Applied Sciences (RICAS), Riphah International University 14 Ali Road Lahore Pakistan.

出版信息

RSC Adv. 2023 Sep 1;13(37):26149-26159. doi: 10.1039/d3ra04760a. eCollection 2023 Aug 29.

DOI:10.1039/d3ra04760a

PMID:37664196

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10472217/

Abstract

This research presents the novel synthesis of CeO nanostructures (NSs) doped with a fixed amount of capping agent (polyacrylic acid-PAA) and different concentrations (0.01 and 0.03) of silver (Ag). This work aimed to examine the catalytic and antibacterial efficacy with evidential molecular docking analysis of Ag/PAA doped CeO. Systematic characterization was used to analyze the effect of Ag and a capping agent on crystal structure, morphology, absorbance wavelength, and the exciton recombination rate of CeO. The silver metal and capping agent (PAA) were added into CeO to reduce the size of NSs, enhancing the catalytic efficacy. These binary dopants (Ag-PAA) based CeO revealed remarkable results for catalytic de-colorization of rhodamine B dye and antimicrobial potential as the dopants provide more active sites. Notably, (0.03) Ag/PAA doped CeO NSs exhibited a substantial catalytic reduction (98.9%) of rhodamine B dye in an acidic medium. The higher doped CeO revealed a significant inhibition zone (3.75 mm) against at maximal concentration. Furthermore, docking showed the possible inhibitory impact of produced nanomaterials on the fatty acid biosynthesis enzymes FabI and FabH.

摘要

本研究提出了一种新型的二氧化铈纳米结构（NSs）的合成方法，该结构掺杂了固定量的封端剂（聚丙烯酸 - PAA）和不同浓度（0.01和0.03）的银（Ag）。这项工作旨在通过对Ag/PAA掺杂的CeO进行分子对接分析来检验其催化和抗菌效果。采用系统表征方法来分析Ag和封端剂对CeO晶体结构、形态、吸收波长和激子复合率的影响。将银金属和封端剂（PAA）添加到CeO中以减小NSs的尺寸，提高催化效果。这些基于二元掺杂剂（Ag - PAA）的CeO在罗丹明B染料的催化脱色和抗菌潜力方面显示出显著结果，因为掺杂剂提供了更多活性位点。值得注意的是，（0.03）Ag/PAA掺杂的CeO NSs在酸性介质中对罗丹明B染料表现出显著的催化还原（98.9%）。较高掺杂量的CeO在最大浓度下对[具体菌种未给出]显示出显著的抑菌圈（3.75毫米）。此外，分子对接显示所制备的纳米材料对脂肪酸生物合成酶FabI和FabH可能具有抑制作用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/bb0e/10472217/0c6690e02028/d3ra04760a-f1.jpg

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通过银和聚丙烯酸掺杂的CeO纳米结构的分子对接分析证实的异常催化和抗菌活性。

Anomalous catalytic and antibacterial activity confirmed by molecular docking analysis of silver and polyacrylic acid doped CeO nanostructures.

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