Chemically reduced silver nanoparticles towards photocatalytic and electrocatalytic applications

IF 1.3 4区材料科学 Q4 MATERIALS SCIENCE, MULTIDISCIPLINARY

Emerging Materials Research Pub Date : 2023-12-01 DOI:10.1680/jemmr.23.00064

Da-Qing Tan, Meng-Yao Dong, Yi-jie Xia, Xuan-Ye Wang, Hui-Ge Wei

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Abstract

In virtue of unique physiochemical properties, silver nanoparticles (AgNPs) have attracted enormous research interest for versatile applications. It is critical to study the effect of the microstructure, e.g., the shape and the size of AgNPs on their performance. Herein, AgNPs with varying shapes and sizes were synthesized by varying the manner of the reducing agent NaBH4 added (i.e., multi-step and one-step reduction methods), and then were studied for photocatalytic of dyes and electrocatalytic oxidation of glucose. The results showed that triangular, spherical, or the mixture of triangular/spherical shaped AgNPs were obtained from multi-step reduction method, whereas only spherical shaped AgNPs were yielded from the one-step reduction method. The sizes could be manipulated by changing the concentrations of the reagents or the reaction temperature. The triangular shaped and smaller-sized AgNPs were more effective for photocatalytic of dyes, and the degradation percent of methylene blue was enhanced to 95% for the Ag-TiO2 complex from 50% for pure TiO2. Moreover, the spherical shaped AgNPs with smaller size could effectively detect glucose at a very low concentration of 5 to 10 mM with an excellent glucose tolerance.

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光催化和电催化应用中的化学还原银纳米粒子

银纳米颗粒由于其独特的物理化学性质，具有广泛的应用前景。研究AgNPs的微观结构，如形状和尺寸对其性能的影响是至关重要的。本文通过不同还原剂NaBH4的加入方式(即多步还原法和一步还原法)合成了不同形状和大小的AgNPs，并对其光催化染料和电催化氧化葡萄糖进行了研究。结果表明，多步还原法可得到三角形、球形或三角形/球形混合形状的AgNPs，而一步还原法只能得到球形AgNPs。大小可以通过改变试剂的浓度或反应温度来控制。三角形和较小尺寸的AgNPs对染料的光催化效果更好，Ag-TiO2配合物对亚甲基蓝的降解率从纯TiO2的50%提高到95%。此外，较小尺寸的球形AgNPs可以有效检测5 ~ 10 mM极低浓度的葡萄糖，具有良好的葡萄糖耐量。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Emerging Materials Research MATERIALS SCIENCE, MULTIDISCIPLINARY-

CiteScore

4.50

自引率

9.10%

发文量

期刊介绍： Materials Research is constantly evolving and correlations between process, structure, properties and performance which are application specific require expert understanding at the macro-, micro- and nano-scale. The ability to intelligently manipulate material properties and tailor them for desired applications is of constant interest and challenge within universities, national labs and industry.