Fabrication of nano/microstructures for SERS substrates using an electrochemical method.
Jingran ZhangTianqi JiaXiaoping LiJunjie YangZhengkai LiGuangfeng ShiXinming ZhangZuobin WangPublished in: Beilstein journal of nanotechnology (2020)
Based on an electrochemical method, three-dimensional arrayed nanopore structures are machined onto a Mg surface. The structured Mg surface is coated with a thin gold (Au) film, which is used as a surface-enhanced Raman scattering (SERS) substrate. A rhodamine 6G (R6G) probe molecule is used as the detection agent for the SERS measurement. Different sizes of arrayed micro/nanostructures are fabricated by different treatment time using the electrochemical process. The topographies of these micro/nanostructures and the thickness of the Au film have an influence on the Raman intensity of the Mg substrate. Furthermore, when the thickness of Au film coating is held constant, the Raman intensity on the structured Mg substrates is about five times higher after a treatment time of 1 min when compared with other treatment times. The SERS enhancement factor ranges from 106 to 1.75 × 107 under these experimental conditions. Additionally, a 10-6 mol·L-1 solution of lysozyme was successfully detected using the Mg-Au nanopore substrates. Our low-cost method is reproducible, homogeneous, and suitable for the fabrication of SERS substrates.
Keyphrases
- gold nanoparticles
- sensitive detection
- label free
- reduced graphene oxide
- raman spectroscopy
- low cost
- quantum dots
- loop mediated isothermal amplification
- combination therapy
- optical coherence tomography
- room temperature
- high resolution
- replacement therapy
- single molecule
- mass spectrometry
- fluorescent probe
- liquid chromatography
- visible light