Comparison of different carbon ink based screen-printed electrodes towards amperometric immunosensing

The aim of the present work was to make amperometric immunosensors based on the principle of enzyme-linked immunosorbent assay (ELISA). For this purpose, screen-printed electrodes (SPEs) were fabricated using various carbon inks (commercially available inks Gwent, Acheson, Eltecks and two homemade inks PSG & PVCG) to determine the best ink in realizing immunosensors. Amperometric immunosensors made by different carbon inks were compared with standard ELISA in terms of total assay time, amount of biological materials used and sensitivity of detection. A model system containing rabbit anti-mouse immunoglobulin G (RαMIgG) as the capturing antibody, mouse IgG (MIgG) as antigen and alkaline phosphatase conjugated RαMIgG as revealing antibody was used. In these studies, 1-naphthyl phosphate was used as substrate. The experiments done include electrochemical characterization of electrodes, optimization of dilutions of antibodies, immobilization of antibody on the electrode were carried out. The minimum detection limit for the best results of MIgG determination were obtained on screen-printed electrode made by Gwent carbon ink and PSG carbon ink, with a detection limit of 1.0 and 2.0 ng/ml respectively. The time required for detection of mouse IgG was 40 min for SPEs. By using the conventional spectrophotometric method (ELISA method), the minimum detection limit for the MIgG (antigen) detection was 50 ng/ml and the time required for analysis was found to be 140 min.