The uniformity of SiO₂ film thermally grown on 4H-SiC was characterized by atomic force microscopic observation of the emerged SiO₂ surface after each step-etching using diluted HF solution. The two-dimensionally non-uniform film was inevitably formed in the vicinity of SiO₂/SiC interface, where the step-etched SiO₂ surface drastically becomes rough. The non-uniform film at the near-interface region was not uniformized by various post-oxidation-annealing. Meanwhile, it was found that uniformization of the near-interface region occurs at a distance from the interface. This means that the uniform region of the SiO₂ film reproduces as the film thickness increases. In addition, electrical properties of MOS capacitors with SiO₂ film with thicknesses of 5.1, 18.0, and 27.3 nm, which were thermally grown on 4H-SiC(0001), were characterized in a temperature range of 130~350 K. It was implied that the leakage current was dominated by Poole-Frenkel emission via the trap with the level of approximately 1.2 eV below the conduction band minimum in SiO₂. In addition of the trap level, the slightly deeper trap level, 1.4 eV, was also observed in the 5.1-nm sample. Generation of these traps could be related to formation of the non-uniform region near the SiO₂/SiC interface.