Effective and Efficient Pretreatment of Polyimide Substrates by Capacitively Coupled Plasma for Coating the Composites of Tetracycline-Imprinted Polymers and Quantum Dots: Comparison with Chemical Pretreatment

Abstract: Composites of tetracycline (Tc)-imprinted polymethacrylates and quantum dots have been coated on chemically pretreated polyimide substrates (PIs) as fluorescent sensors. In this study, PIs were pretreated by capacitively coupled plasma (CCP) before coating the same composites on them. For the first time, to fabricate sensors by plasma modification of PIs, the CCP conditions, including plasma gas, flow rate, radio frequency generation power, and duration time, the fabrication details, including coating, baking,… Show more

“…Furthermore, the detection method of the as-prepared nanoprobe was compared with other similar fluorescence methods. Compared with the single QDs as the fluorescent element, − the Ag@SiO 2 /QDs-Apt nanoprobe showed a wider linear range and lower detection limit (Table ).…”

Silica-Coated Silver Nanoparticles Decorated with Fluorescent CdTe Quantum Dots and DNA Aptamers for Detection of Tetracycline

“…Furthermore, the detection method of the as-prepared nanoprobe was compared with other similar fluorescence methods. Compared with the single QDs as the fluorescent element, − the Ag@SiO 2 /QDs-Apt nanoprobe showed a wider linear range and lower detection limit (Table ).…”

Silica-Coated Silver Nanoparticles Decorated with Fluorescent CdTe Quantum Dots and DNA Aptamers for Detection of Tetracycline