An ultra-sensitive SERS approach by electrostatic enrichment of charged analytes on Ag/laponite nanocomposites

IF 5.3 2区 地球科学 Q2 CHEMISTRY, PHYSICAL
Hao Zhang , Chaopeng Fu , Jianhao Ding , Guoqiang Xu , Chunhui Zhou , Zhenyu He , Zhimin Ou , Dongshen Tong , Minyang Qiu , Xiangdong Zhou , Xiaonian Li
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Abstract

An electrostatic adsorption-based, surface-enhanced Raman scattering (SERS) assay for the detection of charged analytes was developed, which utilized Ag-deposited laponite nanoparticles (Ag@Lap NPs) as both a SERS substrate and negatively charged absorber for the capture of positively charged analytes, such as methylene blue (MB) and rhodamine B (RB). The strong electrostatic interaction between the MB analyte and the Ag@Lap NPs resulted in an effective concentration of MB on the Ag content of Ag@Lap and provided a limit of detection (LOD) sensitivity of 10−11 M, which was more sensitive by a factor of 25,000 over the LOD of MB (0.25 × 10−6 M) in a similar SERS assay using bare Ag NPs with low charges. Additionally, a 100-fold improvement in LOD was also observed for RB analyte on Ag@Lap NPs over that on bare Ag NPs. Unlike positively charged, the negatively charged analytes, such as direct black-168 (DB-168) and methyl orange (MO), exhibited a weaker adsorption on the same negatively charged surface of Ag@Lap NPs due to electrostatic repulsion, leading to a lower SERS sensitivity. These results indicated that the electrostatic attraction between the analytes and SERS substrate played an important role in enriching the number of analytes on the active substrate to significantly improve the SERS intensity, suggesting a new strategy, which could be easily adapted to environmental analysis and biosensor applications by concentrating and detecting charged analytes, such as pollutants and dye molecules in nanotags.
在 Ag/laponite 纳米复合材料上静电富集带电分析物的超灵敏 SERS 方法
研究人员开发了一种基于静电吸附的表面增强拉曼散射(SERS)分析方法,用于检测带电的分析物,该方法利用沉积了银的青金石纳米颗粒(Ag@Lap NPs)作为 SERS 底物和带负电的吸收体,以捕获带正电的分析物,如亚甲基蓝(MB)和罗丹明 B(RB)。甲基溴分析物与 Ag@Lap NPs 之间的强静电相互作用导致甲基溴在 Ag@Lap 的银含量上形成有效浓度,并提供了 10-11 M 的检测限(LOD)灵敏度,与使用低电荷裸 Ag NPs 的类似 SERS 检测中甲基溴的检测限(0.25 × 10-6 M)相比,灵敏度提高了 25,000 倍。此外,还观察到 Ag@Lap NPs 上的 RB 分析物的 LOD 比裸 Ag NPs 上的 LOD 提高了 100 倍。与带正电荷的分析物不同,带负电荷的分析物(如直接黑-168(DB-168)和甲基橙(MO))在 Ag@Lap NPs 带负电荷的相同表面上由于静电排斥而表现出较弱的吸附性,导致 SERS 灵敏度降低。这些结果表明,分析物与 SERS 基底之间的静电吸引在富集活性基底上的分析物数量以显著提高 SERS 强度方面发挥了重要作用,从而提出了一种新策略,通过在纳米标签中富集和检测带电分析物(如污染物和染料分子),可轻松应用于环境分析和生物传感器。
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来源期刊
Applied Clay Science
Applied Clay Science 地学-矿物学
CiteScore
10.30
自引率
10.70%
发文量
289
审稿时长
39 days
期刊介绍: Applied Clay Science aims to be an international journal attracting high quality scientific papers on clays and clay minerals, including research papers, reviews, and technical notes. The journal covers typical subjects of Fundamental and Applied Clay Science such as: • Synthesis and purification • Structural, crystallographic and mineralogical properties of clays and clay minerals • Thermal properties of clays and clay minerals • Physico-chemical properties including i) surface and interface properties; ii) thermodynamic properties; iii) mechanical properties • Interaction with water, with polar and apolar molecules • Colloidal properties and rheology • Adsorption, Intercalation, Ionic exchange • Genesis and deposits of clay minerals • Geology and geochemistry of clays • Modification of clays and clay minerals properties by thermal and physical treatments • Modification by chemical treatments with organic and inorganic molecules(organoclays, pillared clays) • Modification by biological microorganisms. etc...
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