# Physically Reshaped Silver Microplates Formed Monolayer Assemblies at Air/Water Interface as High-Performance SERS Substrates

**Authors:** Aoran Cui, Shaojing Su, Tianle Wang, Yaqin Liao, Shikuan Yang

PMC · DOI: 10.3390/s26061943 · Sensors (Basel, Switzerland) · 2026-03-19

## TL;DR

Researchers developed a simple and scalable method to create high-performance SERS substrates using silver microplates assembled at an air/water interface.

## Contribution

A novel self-assembly method for fabricating SERS substrates using physically reshaped silver microplates is introduced.

## Key findings

- The SERS substrate achieved a detection limit of 1 nM using Rhodamine 6G.
- The substrate showed good spatial uniformity with a relative standard deviation of ~9.94%.
- The method combines top-down and bottom-up fabrication for scalable production.

## Abstract

Surface-enhanced Raman scattering (SERS) holds great promise for ultrasensitive chemical analysis but is often limited by the trade-off between performance and fabrication simplicity. This work presents a facile strategy to prepare monolayer silver microplates combining the top-down and bottom-up fabrication concepts. Silver microplates with uniform nanoscale thickness (~93.5 nm) and micron-scale lateral size (D50 = 3.33 µm) are prepared via a scalable mechanical ball-milling process. These silver microplates served as building blocks for spontaneous interfacial self-assembly at the air/water interface to form a macroscopically continuous monolayer film. The silver microplate monolayer film is transferred onto a plasma-treated silicon wafer as a SERS substrate. The resulting SERS substrate exhibits a porous, network-like microstructure composed of densely packed microplates, which generates a high density of electromagnetic hot spots at the nanogaps. Using Rhodamine 6G as a probe molecule, the substrate demonstrates a SERS detection limit of as low as 1 nM and good spatial uniformity with a relative standard deviation of ~9.94%. This study provides a cost-effective and scalable self-assembly route of physically reshaped silver microplates to fabricate high-performance SERS substrates.

## Linked entities

- **Chemicals:** Rhodamine 6G (PubChem CID 13806)

## Full-text entities

- **Chemicals:** Rhodamine 6G (MESH:C026188), Silver (MESH:D012834), Water (MESH:D014867), silicon (MESH:D012825)

## Full text

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## Figures

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## References

35 references — full list in the complete paper: https://tomesphere.com/paper/PMC13030420/full.md

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Source: https://tomesphere.com/paper/PMC13030420