Recent development of surface-enhanced Raman scattering for biosensing

Lin, Chenglong; Li, Yanyan; Peng, Yusi; Zhao, Shuai; Xu, Meimei; Zhang, Lingxia; Huang, Zhengren; Shi, Jianlin; Yang, Yong

doi:10.1186/s12951-023-01890-7

Cited by 22 publications

(9 citation statements)

References 248 publications

(266 reference statements)

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“…This modality carries profound implications for biomedical investigations, pharmacological innovations, and diagnostic modalities. 102 SERS, as an analytical behemoth, has indisputably etched its mark within biological domains. From parsing singular biomolecules to deciphering convoluted cellular architectures, SERS unfurls an unmatched vista into the biological milieu's sanctum.…”

Section: Deciphering Metabolites and Small Molecular Entities Through...mentioning

confidence: 99%

Deciphering biomolecular complexities: the indispensable role of surface-enhanced Raman spectroscopy in modern bioanalytical research

Xia,

Huang,

Wang

et al. 2024

Analyst

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Section: Deciphering Metabolites and Small Molecular Entities Through...mentioning

confidence: 99%

Deciphering biomolecular complexities: the indispensable role of surface-enhanced Raman spectroscopy in modern bioanalytical research

Xia,

Huang,

Wang

et al. 2024

Analyst

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“…Designing nanostructures for SERS substrates is essential for the successful ultrasensitive detection of biological entities. The chemical bond vibration information on probe molecules can be obtained through a direct interaction of the molecules with the SERS substrate nanostructure . In reality, the adsorption of the probe molecule onto the surface of the nanostructured SERS substrate is strongly dependent on the interaction between the molecule and the surface.…”

Section: Introductionmentioning

confidence: 99%

Cation Chain Length of Nonhalogenated Ionic Liquids Matters in Enhancing SERS of Cytochrome c on Zr–Al–Co–O Nanotube Arrays

Gong,

Dong,

Zhu

et al. 2024

Langmuir

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Surface-enhanced Raman scattering (SERS) is a remarkably powerful analytical technique enabling trace-level detection of biological molecules. The interaction of a probe molecule with the SERS substrate shows important distinctions in the SERS spectra, providing inherent fingerprint information on the probe molecule. Herein, nonhalogenated phosphonium-based ionic liquids (ILs) containing cations with varying chain lengths were used as trace additives to amplify the interaction between the cytochrome c (Cyt c) and Zr–Al–Co–O (ZACO) nanotube arrays, strengthening the SERS signals. An increased enhancement factor (EF) by 2.5–41.2 times compared with the system without ILs was achieved. The improvement of the SERS sensitivity with the introduction of these ILs is strongly dependent on the cation chain length, in which the increasing magnitude of EF is more pronounced in the system with a longer alkyl chain length on the cation. Comparing the interaction forces measured by Cyt c-grafted atomic force microscopy (AFM) probes on ZACO substrates with those predicted by the extended Derjaguin–Landau–Verwey–Overbeek (XDLVO) theory, the van der Waals forces became increasingly dominant as the chain length of the cations increased, associated with stronger Cyt c–ZACO XDLVO interaction forces. The major contributing component, van der Waals force, stems from the longer cation chains of the IL, which act as a bridge to connect Cyt c and the ZACO substrate, promoting the anchoring of the Cyt c molecules onto the substrate, thereby benefiting SERS enhancement.

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“…One possible way to overcome this is to functionalise the surface of the sensor with layers that can capture the target analyte. This approach has recently been reported for SERS based sensing using capture layers such as antigen for biomolecular detection (SARS-CoV-2 virus, biomarkers) [26], aptamer for detection of specific DNA strands or bacteria [27], calixarene for detection of quinacridones [28] and cyclodextrin for detection of fluoroquinolone antibiotics [29].…”

Section: Introductionmentioning

confidence: 99%

Electrochemical synthesis of 2D-silver nanodendrites functionalized with cyclodextrin for SERS-based detection of herbicide MCPA

Daly,

Narayan,

Diaz

et al. 2024

Nanotechnology

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Surface Enhanced Raman Spectroscopy (SERS) is a powerful analytical technique that has found application in the trace detection of a wide range of contaminants. In this paper, we report on the fabrication of 2-D silver nanodendrites, on silicon chips, synthesized by electrochemical reduction of AgNO3 at microelectrodes. The formation of nanodendrites is tentatively explained in terms of electromigration and diffusion of silver ions. Electrochemical characterization suggests that the nanodendrites do not stay electrically connected to the microelectrode. The substrates show SERS activity with an enhancement factor on the order of 106. Density functional theory (DFT) simulations were carried out to investigate the suitability of the fabricated substrate for pesticide monitoring. These substrates can be functionalized with cyclodextrin macro molecules to help with the detection of molecules with low affinity with silver surfaces. A proof of concept is demonstrated with the detection of the herbicide 2-methyl-4-chlorophenoxyacetic acid (MCPA).

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Recent development of surface-enhanced Raman scattering for biosensing

Cited by 22 publications

References 248 publications

Deciphering biomolecular complexities: the indispensable role of surface-enhanced Raman spectroscopy in modern bioanalytical research

Deciphering biomolecular complexities: the indispensable role of surface-enhanced Raman spectroscopy in modern bioanalytical research

Cation Chain Length of Nonhalogenated Ionic Liquids Matters in Enhancing SERS of Cytochrome c on Zr–Al–Co–O Nanotube Arrays

Electrochemical synthesis of 2D-silver nanodendrites functionalized with cyclodextrin for SERS-based detection of herbicide MCPA

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