In organic thin film transistor (OTFT) manufacturing process, the topography of organic semiconductor is determined by the molecular arrangement. In addition to molecule itself, molecular stacking on a substrate is an important issue. This process involves solvent choice and coating conditions. In improving molecular ordering, post solvent annealing process is used to improve crystallinity of organic molecules. Therefore, highly crystallized organic molecules enhance the electrical performance of the organic thin film transistor. The material system is based on ADT (Anthradithiophene) in this thesis. The organic semiconductor materials TESADT and its derivatives were synthesized. All of them were demonstrated by making OTFT device and analyzed to optimize their properties. The device fabrication of all the materials was done by solution process. We tried to improve device mobility by solution shearing 、droplet-pinned crystallization and Drop casting. We also analyzed surface profiles of the organic semiconductors using XRD and AFM. Therefore, we can develop the best method to fabricate OTFT devices with better mobility and performance.