In this study, whether the syntheses obtained by changing the sodium nitrate concentration used as a reagent in the Hummers method by X-Ray Photoelectron Spectroscopy analysis convert to graphene oxide and its changing structural properties were investigated. After chemical oxidation, new signals representing different numbers of oxygen-containing functional groups (epoxy and phenolic carbon (C-O), carbonyl (C=O) and carboxyl (O-C=O)) were determined by Gaussian or Lorentz distribution analyses applied to the C1s general spectrum asymmetrically centered at 284.8 EV. It has been observed that these groups lead to a significant decrease in the peak density due to the defect and disorder caused by the sp2 hybridized carbon atom (C-C/C=C) peak in graphite. While the C/O atomic ratio for graphite was 42.48, a decrease in this value to 1.74 in graphene oxide samples and the appearance of functional groups with different oxygen content connected to the graphite basal plane showed that chemical oxidation had occurred successfully. The fact that no N1s peak was observed in the synthesized samples indicates that the products are pure. As a result of the synthesis analyses, it was observed that the bond energy values of the groups in the structure were in harmony with the literature. In the light of all these results, it can be stated that graphene oxide samples with different properties have been successfully synthesized.