Zinc oxide (ZnO) has physical properties which has earned it great attention in recent years. This study focuses on the observation of ZnO thin film grown by atomic layer deposition (ALD) technique on various substrates (such as silicon (Si), glass, and sapphire (Al2O3)) and the interface structure between film and substrate. HR-TEM, XRD, sheet resistivity, PL, etc. are the means used to study these samples. It is obvious that ZnO films contain many Moiré fringes and structure defects, regardless of the type of substrate on which they are deposited. ZnO/silicon interfaces are not flat due to the presence of silicon oxide, while ZnO/sapphire interfaces are flat, sharp, and smooth. There are good epitaxial orientation relationships between ZnO thin films and sapphire substrates. Sapphire is a better substrate for ZnO film epitaxy, but at the interface, a number of misfit dislocations still exist due to the lattice mismatch between ZnO and sapphire. Although there are no epitaxial relationships between the films and silicon (or glass) substrates, it is an advantage that there is no lattice mismatch problem between films and silicon or glass substrates, so the density of misfit dislocations at the interface is low.Sheet resistivity and PL spectra show better electrical and optical properties for ZnO thin films grown on silicon instead of on sapphire; one possible reason is that the density of defects at the ZnO/ sapphire interfaces is much higher than at the ZnO/ silicon interfaces.