内表面由银纳米颗粒修饰的FeOOH微管的合成。

Synthesis of the FeOOH Microtubes with Inner Surface Modified by Ag Nanoparticles.

作者信息

Strykanova Vera V, Gulina Larisa B, Tolstoy Valeri P, Tolstobrov Elena V, Danilov Denis V, Skvortsova Irina

机构信息

Institute of Chemistry, Saint Petersburg State University, 7/9 Universitetskaya nab., St. Petersburg 199034, Russia.

出版信息

ACS Omega. 2020 Jun 2;5(25):15728-15733. doi: 10.1021/acsomega.0c02258. eCollection 2020 Jun 30.

DOI:10.1021/acsomega.0c02258

PMID:32637848

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7331202/

Abstract

Lepidocrocite (γ-FeOOH) microtubes with scroll morphology prepared by gas-solution interface technique (GSIT) have been modified by silver nanoparticles (Ag NPs). The successive ionic layer deposition (SILD) was first used for the synthesis of the Ag NPs on the lower surface of a solid film freely lying on the surface of a solution. The sizes of Ag NPs are about 15 nm after one synthesis cycle, and their diameters reach 35 nm after three SILD cycles. As a result of vacuum-drying, the modified film is transformed into microtubes with a diameter of about 10 μm and a length of 150 μm in such a way that the inner surface of the microtube is modified by Ag NPs. The catalytic properties of the microtubes have been observed by the decomposition of HO in aqueous solution. The Ag/FeOOH microtubes move in hydrogen peroxide solutions with an average speed of 117 μm/s. This result is based on the synergetic effect between lepidocrocite nanosheets and Ag NPs, which results in the modified microtubes having enhanced mobility.

摘要

通过气-溶液界面技术（GSIT）制备的具有卷曲形态的纤铁矿（γ-FeOOH）微管已用银纳米颗粒（Ag NPs）进行了改性。连续离子层沉积（SILD）首次用于在自由置于溶液表面的固体薄膜下表面合成Ag NPs。经过一个合成周期后，Ag NPs的尺寸约为15 nm，经过三个SILD周期后其直径达到35 nm。经过真空干燥，改性薄膜转变为直径约10μm、长度为150μm的微管，使得微管的内表面被Ag NPs改性。通过水溶液中HO的分解观察了微管的催化性能。Ag/FeOOH微管在过氧化氢溶液中移动，平均速度为117μm/s。该结果基于纤铁矿纳米片与Ag NPs之间的协同效应，这导致改性微管具有增强的迁移率。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/bcbf/7331202/625f26d6472e/ao0c02258_0002.jpg

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内表面由银纳米颗粒修饰的FeOOH微管的合成。

Synthesis of the FeOOH Microtubes with Inner Surface Modified by Ag Nanoparticles.

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