由微胶囊介导的各向异性生长方法形成的由相交的金薄片组成的三维超结构

Jiaxin Rui, Meng Chen, Tingting Wu, Xuzhi Shi, Wei Lu, Meng Dang, Xiaolin Han, Ning Wang, Yuru Wang, Xiaodan Su, Zhaogang Teng
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引用次数: 0

摘要

三维超结构(3DSs)因其单个构建单元的集体协同效应而吸引了越来越多的关注,但其定制依赖于繁琐的多步骤策略或高端纳米制造技术。本文首次报道了一种由嵌段共聚物胶束介导的简便的各向异性生长方法,用于制备由具有锯齿状边缘的可调交叉薄片组成的金 3DSs 。3DS 的制备取决于金前驱体的还原动力学和嵌段共聚物胶束在金晶体表面上的吸附(以双硫嘧啶为配体)。通过调节胶束疏水性嵌段的重量分数,3DSs 中薄片的厚度可控制在 ≈21 到 102 nm 之间,组成的薄片数可调节在 ≈3 到 ≈30 之间。通过控制胶束的溶胀程度,还可获得其他形态,如树枝状介孔结构和肉丸状形状。有限差分时域模拟表明,具有锯齿状边缘的独特金薄片 3DS 形成了大量热点,从而产生了表面增强拉曼散射(SERS)。3DSs 具有很强的电磁场增强功能,作为检测 4-巯基苯甲酸的 SERS 基底性能优异。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

3D Superstructures Consisting of Intersecting Gold Lamellae Formed by a Micelle-Mediated Anisotropic Growth Approach

3D Superstructures Consisting of Intersecting Gold Lamellae Formed by a Micelle-Mediated Anisotropic Growth Approach
3D superstructures (3DSs) have attracted increasing interest because of the collective synergistic effects of individual building units, but their customization relies on tedious multistep strategy or high-end nanofabrication technology. Herein, for the first time, a facile block copolymer micelle-mediated anisotropic growth approach is reported to fabricate gold 3DSs consisting of tunable and intersecting lamellae with sawtooth-like edges. The preparation of the 3DSs depends on the mediation of reduction kinetics of gold precursors and adsorption of block copolymer micelles on gold crystal surfaces using disulfiram as ligands. The thickness of lamellae in the 3DSs is controllable from ≈21 to 102 nm by adjusting the weight fraction of the micellar hydrophobicity blocks and the composed lamellar number is regulated from ≈3 to ≈30. Additional morphologies, such as a dendritic mesoporous structure and meatball-like shapes, are obtained through controlling the extent of micelle swelling. Finite-difference time-domain simulations demonstrate that the unique 3DSs of gold lamellae with sawtooth-like edges form abundant hotspots giving rise to surface-enhanced Raman scattering (SERS). The 3DSs exhibit strong electromagnetic field enhancement and excellent performance as SERS substrates for detecting 4-mercaptobenzoic acid.
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