The thesis was consist in three parts: At first, aluminum doped zinc oxide(AZO) thin film was deposited on m-plane sapphire grown by Atomic Layer Deposition (ALD). For the AZO film grown at 260 oC, X-ray measurement showed that AZO film only presented zinc oxide (ZnO) (100) diffraction peak. It also had the best crystallinity with smooth film surface. The Hall measurement showed that sheet resistance was as low as 97 ohm/sq with mobility~ 16cm2/Vs. Second, ZnO nanowire was grown on Au-coated Si (100) substrate by a vertical high temperature furnace. For a substrate temperature at 700 oC with the 800 sccm of argon flow, ZnO nanowires were successfully formed. Finally, ZnO nanowires coated with varied thicknesses of AZO films prepared by ALD. The SEM measurement showed that AZO thin film coated uniformly on the ZnO nanowires. The GIXRD results showed that the increase of the ZnO (100) and (101) diffraction peak with increasing the thickness of AZO film coated. The PL spectrum showed that both of as-grow ZnO nanowires and the AZO film coated on ZnO nanowires exhibit without the green emission, but with blue shift for the AZO films coated on ZnO nanowires. The Hall measurement showed the decrease of sheet resistance with increasing the thickness of AZO coated films. For the ZnO nanowires coated with 100 ALD cycles of AZO films have the lowest turn-on field ~ 20 V/μm and the maximum current density ~ 2 mA/cm2 and the field enhancement factor is about 465.