Label-free electrochemical DNA sensor using “click”-functionalized PEDOT electrodes

Here we describe a label-free electrochemical DNA sensor based on poly(3,4-ethylenedioxythiophene)-modified (PEDOT-modified) electrodes. An acetylene-terminated DNA probe, complementary to a specific “Hepatitis C” virus sequence, was immobilized onto azido-derivatized conducting PEDOT electrodes using “click” chemistry. DNA hybridization was then detected by differential pulse voltammetry, evaluating the changes in the electrochemical properties of the polymer produced by the recognition event. A limit of detection of 0.13nM was achieved using this highly selective PEDOT-based genosensor, without the need for labeling techniques or microelectrode fabrication processes. These results are promising for the development of label-free and reagentless DNA hybridization sensors based on conducting polymeric substrates. Biosensors can be easily prepared using any DNA sequence containing an alkyne moiety. The data presented here reveal the potential of this DNA sensor for diagnostic applications in the screening of diseases, such as “Hepatitis C”, and genetic mutations. •Label-free electrochemical DNA sensor using “click”-functionalized PEDOT electrodes.•Application to Hepatitis C virus detection.•Immobilization can be applied to any DNA capture probe containing an alkyne moiety.•Limit of detection (LOD) of the sensor in the nanomolar range.•No requirement for complicated microfabrication methodologies.