Self-Assembled Multifunctional Supraparticle Films for Label-Free Direct SERS Quantitation of Weakly Adsorbing Molecules in Serum.

IF 8.2 2区材料科学 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY

ACS Applied Materials & Interfaces Pub Date : 2025-10-23 DOI:10.1021/acsami.5c17582

Yingrui Zhang,Chunchun Li,Weilong Liu,Yunpeng Huang,Ziwei Ye,Steven E J Bell,Yikai Xu,Xiang Ma

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Abstract

Detecting and quantifying molecular species at trace levels is crucial for understanding fundamental processes in chemistry and biology; however, the complexity of real-life samples renders their direct analysis extremely challenging. Here, we demonstrate a surface-enhanced Raman spectroscopic approach for the direct on-site detection and quantification of trace analytes in real-life samples. The key to our approach is the creation of multifunctional plasmonic films via interfacial self-assembly using colloidal Au@Prussian blue (PB) supraparticles as the functional building block. The supraparticles contain 3-dimensional hot-spots that give rise to strong plasmonic near-field enhancement, while the PB shell acts simultaneously as a molecular sieve and internal standard to induce selective analyte adsorption and to calibrate signal fluctuations. This enables direct identification and quantitation of a range of weakly adsorbing targets in biological and environmental samples using a portable Raman spectrometer, which paves the way for rapid on-site chemical analysis in important applications, including therapeutic drug monitoring and environmental analysis.

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自组装多功能超粒子膜用于血清中弱吸附分子的无标记直接SERS定量。

在痕量水平上检测和量化分子物种对于理解化学和生物学的基本过程至关重要；然而，现实生活样品的复杂性使得他们的直接分析极具挑战性。在这里，我们展示了一种表面增强拉曼光谱方法，用于直接现场检测和定量实际样品中的痕量分析物。我们方法的关键是使用胶体Au@Prussian蓝（PB）超粒子作为功能构建块，通过界面自组装创建多功能等离子体膜。超粒子含有三维热点，产生强等离子体近场增强，而PB壳同时作为分子筛和内标，诱导选择性分析物吸附和校准信号波动。这使得使用便携式拉曼光谱仪可以直接识别和定量生物和环境样品中的一系列弱吸附目标，这为重要应用中的快速现场化学分析铺平了道路，包括治疗药物监测和环境分析。

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来源期刊

ACS Applied Materials & Interfaces 工程技术-材料科学：综合

CiteScore

16.00

自引率

6.30%

发文量

4978

审稿时长

1.8 months

期刊介绍： ACS Applied Materials & Interfaces is a leading interdisciplinary journal that brings together chemists, engineers, physicists, and biologists to explore the development and utilization of newly-discovered materials and interfacial processes for specific applications. Our journal has experienced remarkable growth since its establishment in 2009, both in terms of the number of articles published and the impact of the research showcased. We are proud to foster a truly global community, with the majority of published articles originating from outside the United States, reflecting the rapid growth of applied research worldwide.