Vertical-channel space-charge-limited transistor (SCLT) serves as organic light-emitting diode (OLED) driving is a major purpose in this thesis. In the past, SCLT usually operate under -2 V, but it is not enough for OLED driving. SCLT is required at least -7 V operation voltage when it’s connected with OLED. In this work, increasing the thickness of insulator poly(4-vinylphenol) (PVP) is in order to improve breakdown phenomenon when SCLT operate at high voltage. Theon-current densityof SCLT whose thickness of PVP is 400 nm is 45 mA/cm^2at -15 V and its active layer of poly(3-hexylthiophene) (P3HT) is deposited by solution process blade coating. The output resistance 17871 Ω∙cm^2 can be also reached by spin coating P3HT and 500 nm PVP.Besides, the Silvaco TCAD software is used to verify the experiment.It is obtained 2132 cd/m^2 at -15V when SCLT is connected with a green light OLED by electric wires.In the second part of thesis, decreasing one order of leakage current by imprinting polystyrene (PS) insulating layer on base electrode is demonstrated in this thesis.