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BiZrO与羟基磷灰石复合材料的协同效应:有机污染物修复、抗菌及电化学传感应用

Synergistic effect of a BiZrO and hydroxyapatite composite: organic pollutant remediation, antibacterial and electrochemical sensing applications.

作者信息

Pompapathi K, Anantharaju K S, Surendra B S, Meena S, Uma B, Chowdhury Arpita Paul, Murthy H C Ananda

机构信息

Dr. D. Premachandra Sagar Centre for Advanced Materials, Dayananda Sagar College of Engineering Shavige Malleshwara Hills, Kumaraswamy Layout Bengaluru 560111 India

Department of Material Science, Mangalore University Mangalagangotri Mangalore 574199 Karnataka India.

出版信息

RSC Adv. 2023 Sep 25;13(40):28198-28210. doi: 10.1039/d3ra05222b. eCollection 2023 Sep 18.

DOI:10.1039/d3ra05222b
PMID:37753401
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10518660/
Abstract

Global concern regarding the energy crisis and environmental pollution is increasing. The fabrication of efficient catalysts remains a long-term goal. Recently, green synthesis methods for catalyst fabrication have attracted the scientific community. Herein, a simple approach to synthesize bismuth zirconate-hydroxyapatite (BZO-HA) nanocomposites using (mint) leaves as a reducing agent a combustion method has been reported. The use of a green reducing agent provided economic attributes to this work. Among the prepared samples, the BZO-HA (20%) composite exhibited superior photocatalytic activity. The photodegradation efficiency of the composite reached 90.3% and 98.4% for methylene blue (MB) and rose Bengal (RB) dyes, respectively. The results showed the excellent optical performance of the prepared composites. The constructed sensor (BZO-HA 20%) for the very first time showed outstanding selectivity and performance towards sensing lead nitrate and dextrose compared to bare bismuth zirconate (BZO) and hydroxyapatite (HA). A three-electrode system using 0.1 M KCl was used for the study. The synthesized composite BZO-HA (20%) can sense lead nitrate and dextrose over the concentration range of 1-5 mM in the potential range from -1.0 V to +1.0 V. The BZO-HA composite was also investigated against Gram-negative () and Gram-positive () bacteria for antibacterial activity studies. Enhanced antibacterial activity was observed compared to bare BZO and HA catalysts. Thus, the prepared BZO-HA nanocomposite exhibited multifunctional applications.

摘要

全球对能源危机和环境污染的关注日益增加。高效催化剂的制备仍然是一个长期目标。最近,用于催化剂制备的绿色合成方法引起了科学界的关注。在此,报道了一种使用薄荷叶作为还原剂,通过燃烧法合成锆酸铋 - 羟基磷灰石(BZO - HA)纳米复合材料的简单方法。使用绿色还原剂赋予了这项工作经济属性。在所制备的样品中,BZO - HA(20%)复合材料表现出优异的光催化活性。该复合材料对亚甲基蓝(MB)和玫瑰红(RB)染料的光降解效率分别达到90.3%和98.4%。结果表明所制备的复合材料具有优异的光学性能。首次构建的传感器(BZO - HA 20%)相比于裸锆酸铋(BZO)和羟基磷灰石(HA),对硝酸铅和葡萄糖表现出出色的选择性和传感性能。使用0.1 M KCl的三电极系统进行该研究。合成的复合材料BZO - HA(20%)在 - 1.0 V至 + 1.0 V的电位范围内,能够在1 - 5 mM的浓度范围内检测硝酸铅和葡萄糖。还对BZO - HA复合材料针对革兰氏阴性菌和革兰氏阳性菌进行了抗菌活性研究。与裸BZO和HA催化剂相比,观察到其抗菌活性增强。因此,所制备的BZO - HA纳米复合材料展现出多功能应用。

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