期刊
SURFACES AND INTERFACES
卷 23, 期 -, 页码 -出版社
ELSEVIER
DOI: 10.1016/j.surfin.2021.100995
关键词
Surface-enhanced Raman Scattering (SERS); Ag nanoparticles; Flexible; Non-destructive; Rapid detection
类别
资金
- Hong Kong Polytechnic University [P0031415]
In this study, silver (Ag) nanoparticles were deposited onto polyester fabric using a magnetron sputtering system. By controlling the argon flow rate and sputtering time, Ag particles of different sizes on the polyester substrate were produced, resulting in different SERS performances. The AP-200 SERS substrate exhibited high sensitivity, reproducibility, stability, and good reusability, with a limit of detection of 1 ppm for R6G collected from an irregular surface. The finite-difference time-domain (FDTD) method was utilized to simulate the formation of hotspots between two Ag nanoparticles and explain the phenomenon of signal enhancement.
In this study, silver (Ag) is deposited onto polyester fabric through a magnetron sputtering system. The argon flow rate and sputtering time are both controlled to produce Ag nanoparticles of different sizes on the polyester substrate with different gap distances. The scanning electron microscope images, X-ray diffraction spectra, and Raman intensity are used to evaluate the produced substrates. With an average grain size of similar to 46 nm, Ag particles deposited at an argon flow rate of 200 sccm on polyester fabric (AP-200) provides the best SERS performance of 33,625.34 counts towards a 10(-3) M MB solution. The results show that the AP-200 SERS substrate is highly sensitive, reproducible and stable, and it also demonstrates good reusability. Image of hotspots that forms between two Ag nanoparticles based on electric field distribution is simulated by the finite-difference time-domain (FDTD) method which is used to explain the phenomenon of signal enhancement. In addition, AP200 is used to directly collect R6G from an irregular surface, and shows high sensitivity with a limit of detection of 1 ppm.
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