Journal
PHYSICAL CHEMISTRY CHEMICAL PHYSICS
Volume 25, Issue 3, Pages 1649-1658Publisher
ROYAL SOC CHEMISTRY
DOI: 10.1039/d2cp05158c
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In this study, a capillary device based on surface plasmon-enhanced Raman scattering effect was prepared using a simple method. The effects of varying the concentration of APTES, colloids, and the soaking time of the capillary in the colloids on the assembly of gold nanoparticles were studied. The capillary showed excellent SERS performance, with a low detection limit and uniformity for probe molecules and real-life substances.
In this study, a capillary device based on the surface plasmon-enhanced Raman scattering effect was prepared by a simple and easy method. First, the capillary was treated with APTES solution. Due to the electrostatic effect, gold nanoparticles could be easily and tightly assembled in the capillary inner wall. On this basis, the effects of changing the concentration of APTES, the concentration of colloids and the soaking time of the capillary in the colloids on the assembly of gold nanoparticles on the inner wall of the capillary were studied, and the SERS enhancement effect under different conditions was analyzed, and the optimal solution was successfully found. At the same time, the reason why the capillary substrate shows better SERS performance than the traditional planar substrate is deeply discussed. Since the nanoparticles can be attached to the upper and lower surfaces of the inner wall of the capillary, the utilization rate of nanoparticles and laser is improved, thereby achieving higher enhancement. For the detection of the probe molecule rhodamine 6G, it was proved that the substrate has good uniformity and the lowest detection limit can reach 10(-10) M. Finally, the real-life pesticide thiram and the food additive aspartame were tested, and the detection limits could reach 10(-6) M and 0.25 g L-1. It is confirmed that the prepared capillary shows excellent SERS performance and can be used for rapid detection in various fields.
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