壳聚糖介导的具有增强光子反应性的金纳米粒子的环境友好合成

Chitosan-Mediated Environment-Friendly Synthesis of Gold Nanoparticles with Enhanced Photonic Reactivity.

作者信息

Cazacu Ana, Dobromir Marius, Chiruță Ciprian, Ursu Elena-Laura

机构信息

Department of Exact Sciences, "Ion Ionescu de la Brad" Iasi University of Life Sciences, 700490 Iasi, Romania.

Department of Exact and Natural Sciences, Institute of Interdisciplinary Research, "Alexandru Ioan Cuza" University of Iasi, 700506 Iasi, Romania.

出版信息

Nanomaterials (Basel). 2022 Nov 25;12(23):4186. doi: 10.3390/nano12234186.

DOI:10.3390/nano12234186

PMID:36500809

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9736017/

Abstract

We developed a very simple, efficient and environment-friendly synthesis method for the manufacturing of high-performance chitosan-capped gold nanoparticles that could be used for biosensing applications. Gold nanoparticles were prepared through the spontaneous reduction of chloroauric acid by chitosan, which was used as both a reducing and a stabilizing agent. The samples were heated to a temperature of 60 °C under ultrasonic conditions. The composite system made of chitosan as a matrix and gold nanoparticles demonstrated a high stability in an aqueous buffer solution. The nanoparticles displayed an enhancement in photonic performance compared with the same property of individual components as a result of surface plasmon resonance at the interface between the structural phases of the hybrid structure. The enhanced photonic reactivity of the hybrid nanostructure may offer new insights for future possible biosensing applications.

摘要

我们开发了一种非常简单、高效且环境友好的合成方法，用于制造可用于生物传感应用的高性能壳聚糖包覆金纳米颗粒。通过壳聚糖对氯金酸的自发还原制备金纳米颗粒，壳聚糖同时用作还原剂和稳定剂。在超声条件下将样品加热至60°C。由壳聚糖作为基质和金纳米颗粒组成的复合体系在水性缓冲溶液中表现出高稳定性。由于混合结构各结构相界面处的表面等离子体共振，与单个组分的相同性质相比，纳米颗粒的光子性能有所增强。混合纳米结构增强的光子反应性可能为未来可能的生物传感应用提供新的见解。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7175/9736017/5d812521b27f/nanomaterials-12-04186-g002.jpg

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壳聚糖介导的具有增强光子反应性的金纳米粒子的环境友好合成

Chitosan-Mediated Environment-Friendly Synthesis of Gold Nanoparticles with Enhanced Photonic Reactivity.

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