期刊
TALANTA
卷 222, 期 -, 页码 -出版社
ELSEVIER
DOI: 10.1016/j.talanta.2020.121544
关键词
Surface-enhanced Raman scattering (SERS); High sample throughput; Electroless deposition; Chemical and biological sensing
资金
- Fundamental Research Funds for the Central Universities [lzujbky-2020-it25]
- Natural Science Foundation of Gansu Province, China [17JR5RA209]
- National Natural Science Foundation of China [81772907]
The study demonstrates the successful preparation of uniform and stable Ag mirror films on polydopamine-coated well plates for SERS detection using 96-well technology. The high-quality Ag mirror films showed excellent performance in terms of sensitivity, reproducibility, and stability. They were effectively used to quantify organic dyes and small molecules in environmental water samples and urine matrix, with satisfactory sensitivity and recovery.
96-Well technology is associated with automated sample preparation and simultaneous analysis based on the low-cost well plate format. To explore the potential applications of 96-well technology in SERS detection, we examined the surface-bound electroless deposition procedure for the preparation of uniform and stable Ag mirror films on polydopamine (PDA)-coated well plates as active-SERS substrates. In the presented procedure, small Ag seeds assembled on PDA coating were employed as the surface-bound catalyst and provided the active sites for electroless Ag deposition. The high-quality Ag mirror films showed high performance in terms of sensitivity, uniformity, reproducibility and stability using rhodamine 6G (R6G) as the probe molecule. A remarkable enhancement factor of 3.41 x 108 was obtained. The relative standard deviations against well-by-well and batch -by-batch reproducibility were less than 5%. The SERS films on well plates were successfully used to quantify the amounts of organic dyes (R6G and malachite green) in environmental water samples and small biological molecules (adenosine triphosphate and adenine) in urine matrix, displaying satisfactory sensitivity, selectivity and recovery. Their limit of detection values were at nanomolar, even picomolar concentration.
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