Solution-processed organic transistor with high output current, high on/off current ratio and also low operation voltage is required for the development of flexible displays and organic electronics based on low-cost roll-to-roll process. Successful demonstrations to fulfill all above requirements, however, are still lack. In this work, we present a promising vertical transistor to exhibit overall good performances. Numerous poly(3-hexylthiophene) vertical channels are embedded in vertical nanometer pores. Treating the sidewalls of pores by self-assembled monolayer with long alkyl chains helps to align poly(3-hexylthiophene) in vertical orientation and hence greatly enhances the channel current. Then, using blade coating instead of spin coating to deposit poly(3-hexylthiophene) further improves the channel current. A grid metal inside the porous template controls the channel potential profile to turn on and turn off the vertical transistor. Finally, the transistor delivers an output current density as 50-110 mA/cm2 at 2 V with an on/off current ratio larger than 10,000.