Label-free electrochemical aptasensor constructed by layer-by-layer technology for sensitive and selective detection of cancer cells

[Display omitted] •Fc-PAH was modified on the surface of graphene to prepare hybid nanocomposite (Fc-PAH-G).•A cytosensor was constructed with Fc-PAH-G, PSS and aptamer AS1411 by LBL technology.•The sensing interface introduced more redox probe and enhanced current signal on electrode.•The sensor showed a detection range of 10–106cells/mL with a detection limit of 10cells/mL. Here, a cytosensor was constructed with ferrocene-appended poly(allylamine hydrochloride) (Fc-PAH) functionalized graphene (Fc-PAH-G), poly(sodium-p-styrenesulfonate) (PSS) and aptamer (AS1411) by layer-by-layer assembly technology. The hybrid nanocomposite Fc-PAH-G not only brings probes on the electrode and also promotes electron transfer between the probes and the substrate electrode. Meanwhile, LBL technology provides more effective probes to enhance amplified signal for improving the sensitivity of the detection. While AS1411 forming G-quardruplex structure and binding cancer cells, the current response of the sensing electrode decreased due to the insulating properties of cellular membrane. Differential pulse voltammetry (DPV) was performed to investigate the electrochemical detection of HeLa cells attributing to its sensitivity of the current signal change. The as-prepared aptasensor showed a high sensitivity and good stability, a widely detection range from 10 to 106cells/mL with a detection limit as low as 10cells/mL for the detection of cancer cells.