High performance OTFT has been studied for many years. The most important issue is low cost, high performance, and stability. By the mature process of MOSFET, OTFT has been improved a lot, but unfortunately most of them are fabricated on silicon base or thermal oxide, this is expensive and not suit for low cost requirement. For future application, we fabricated a vertical organic transistor, which is similar to vacuum tube. We achieved a comparable performance of on/off ratio, and lower driving voltage, increasing output current compared to the FET made by same P3HT materials. Here we purposed three kinds of SCLT devices. First is bottom injection SCLT, which owns highest on/off ratio. And then we discussed the impact of grid position in the SCLT space. The second is top injection which is good for new ambient material, because we won’t be limit by ITO work function. Third is simplified from the first structure, we use SAM to replace insulator layer, and use in solvent annealing SCLT devices, which has great output current but higher grid leakage current. By using SAMs treatment, we get higher current gain. Here we discussed a lot of information and process about SCLT, it’s useful for future developing.