Effect of nanoarray density on enhanced electron transfer efficiency and analytical sensitivity for electrochemical immunosensors.

ABSTRACT

The fabrication of ordered nanoarray electrode (NAE) using UV imprinting and their application as electrochemical (EC) immunosensor is described in this study. Especially, the influence of the array density factors on the performance of NAE was characterized electrochemically and compared with flat-electrode. Low-density (hole 200 nm, hole space = 600 nm), medium-density (hole 200 nm, hole space = 400 nm), and high-density NAE (hole 200 nm, hole space = 200 nm) which have the same active area were fabricated and their redox cycling was compared with empirical results. We observed that the high-density is the optimum NAE exhibiting the lowest charge transfer resistance and the highest redox cycling performance among all NAEs. Finally, to observe the effect of their EC performance as biosensor, an EC immunoassay was performed using Interleukine-6 (IL-6), and high-density NAE has lowest a low limit of detection (LOD) of 0.45 pg/mL compared with other NAEs (medium-density 3.91 pg/mL, low-density 5.87 pg/mL).