Oxide thin-film transistors could exhibit high mobility even in the amorphous phase and could be fabricated at low temperature. In addition, their transparency in visible region can improve the pixel aperture ratio in flat-panel displays. These benefits of oxide TFTs render their highly potential to replace amorphous silicon (a-Si) and low-temperature ploy Si (LTPS) TFTs. The laser processing is commonly used in the fabrication of LTPS TFTs, to crystallize a-Si film. In this thesis, we studied the effects of laser processing on physical and chemical properties IGZO thin films. We also studied the metal-semiconductor contact resistances of laser process of IGZO. By proper laser processing conditions, the resistivity and specific contact resistivity down to 6.8×10-3 Ω-cm and 6.5×10-5 Ω-cm２, respectively, could be achieved with IGZO. With these, we proposed a method to fabricate top-gate self-aligned IGZO TFTs utilizing laser processing. This method is promising for achieving high performance IGZO TFTs on plastic substrates because the thermal damage to substrates might be reduced compared to conventional furnace annealing.