This study employed a chloro-substituted perylene diimides derivative (Cl-PEPTC) for the formation of self-assembled single crystal micoribbons by solvent exchange method. Transistor devices based on a network of Cl-PEPTC microribbions have showed typical n-channel field-effect behaviors. The extracted maxima mobility was 1.05 × 10-3 cm2V-1s-1, threshold voltage was 68.3 V and on/off current ratio was 4.74 × 104. The devices were further measured under three different conditions: (ⅰ) glove box, (ⅱ) ambient air (relative humidity 50 – 60 %) and (ⅲ) high humidity environment (relative humidity > 90 %). After 80 days, the transistor showed a remarkable stability. The on/off current ratio still maintained in the order of 103. The reason of transistors degradation is probably due to that the hydroxyl group formed at the semiconductor/dielectric interface trapped and captured the electron carriers. In order to investigate the potential application of Cl-PEPTC field-effect transistor, three commercial white, red and green LEDs were employed for photo response behavior study. The highest mobility enhancement was observed under white light irradiation. It was found that the photocurrent/dark-current ratio was affected by the power density of light sources. The photoresponsivity was affected by the matching of the absorbance of Cl-PEPTC microribbons and the emitting spectrum of light sources. Finally, Cl-PEPTC field-effect transistor was measured under different temperature. It was found that the mobility was enhanced with increasing temperature.