金纳米粒子的绿色合成、固定化及其在连续流动模式下对硝基苯酚还原反应中的应用。

Green synthesis and immobilization of gold nanoparticles and their application for the reduction of -nitrophenol in continuous-flow mode.

作者信息

Szűcs Rózsa, Balogh-Weiser Diána, Sánta-Bell Evelin, Tóth-Szeles Eszter, Varga Tamás, Kónya Zoltán, Poppe László, Lagzi István

机构信息

MTA-BME Computer Driven Chemistry, Budapest University of Technology and Economics H-1111, Szent Gellért tér 4 Budapest Hungary.

Department of Physics, Budapest University of Technology and Economics 1111, Budafoki út 8 Budapest Hungary.

出版信息

RSC Adv. 2019 Mar 20;9(16):9193-9197. doi: 10.1039/c8ra10373a. eCollection 2019 Mar 15.

DOI:10.1039/c8ra10373a

PMID:35517692

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9062090/

Abstract

A green and facile method has been developed for the preparation of immobilized gold nanoparticles (AuNPs) using agarose as a reducing and stabilizing agent. The size of the synthesized AuNPs ranges between 10 and 100 nm, and their average size can be controlled by the concentrations of the agarose and gold salt. The agarose matrix as a mild and green reaction medium can provide a good dispersion environment for forming AuNPs, and the hydrogel can be well homogenized with polyacrylic macroporous microbeads as well, which can adsorb and stabilize the particles leading to the simultaneous synthesis and immobilization of AuNPs avoiding harmful inorganic compounds or organic solvents. The supported gold nanocatalyst was successfully applied as a catalyst in packed bed reactors for efficient NaBH-mediated reduction of -nitrophenol in continuous-flow mode.

摘要

已开发出一种绿色且简便的方法，以琼脂糖作为还原和稳定剂来制备固定化金纳米颗粒（AuNPs）。合成的AuNPs尺寸在10至100纳米之间，其平均尺寸可通过琼脂糖和金盐的浓度来控制。琼脂糖基质作为温和且绿色的反应介质，可为形成AuNPs提供良好的分散环境，并且该水凝胶也能与聚丙烯酸大孔微珠很好地均匀混合，后者可吸附并稳定颗粒，从而实现AuNPs的同时合成与固定化，避免使用有害的无机化合物或有机溶剂。负载型金纳米催化剂已成功应用于填充床反应器中，以连续流动模式高效催化硼氢化钠介导的对硝基苯酚还原反应。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/8674/9062090/369390d029aa/c8ra10373a-f1.jpg

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金纳米粒子的绿色合成、固定化及其在连续流动模式下对硝基苯酚还原反应中的应用。

Green synthesis and immobilization of gold nanoparticles and their application for the reduction of -nitrophenol in continuous-flow mode.

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