We report an observation of light-induced switching of conductance in back-gated organic field-effect transistors (OFETs) with a built-in conduction channel. In the studied devices, the built-in channel is formed owing to the self-sensitized photo-oxidation of the rubrene surface. In the dark, the back gate controls charge injection from metal contacts into the built-in channel: The high-current ON state corresponds to zero or negative back gate voltage; the low-current OFF state—to a positive back gate voltage that blocks the Schottky contacts. Illumination of an OFET in the OFF state with a short pulse of light switches the device to the ON state, which persists in the dark for days. The OFF state can be restored by cycling the back-gate voltage. The observed effect can be explained by screening the back-gate electric field with the charges photogenerated in the bulk of organic semiconductor.

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In this experiment, the front facet of the crystal with the source and drain contacts is illuminated with a quartz–tungsten–halogen bulb with a broad spectrum and the light intensity at the sample surface 10mWcm2. Heating during illumination is minimized by positioning the light source far from the sample (50 cm). Short illumination times and very fast response of the device exclude any possibility of the thermal origin of the observed switching effect.
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