Vapor Sensing with alpha,omega-Dihexylquarterthiophene Field- Effect Transistors: The Role of Grain Boundaries

We have investigated the channel-length dependence of responses to a vapor analyte with a series of a,w-dihexylquarterthiophene (DHa4T) field-effect transistors (FETs). Single-crystalline DHa4T devices deposited by vacuum sublimation at substrate temperatures of 70 °C are compared with polycrystalline DHa4T films deposited at room temperature. By changing the length of FET channels and/or the size of polymer grains, the number of grain boundaries per device is changed systematically. A larger response to vapor analyte is obtained by increasing the number of grain boundaries per device, showing that vapor sensing occurs mainly at grain boundaries.