In this study, we aimed to improve the superconducting properties of single-crystal samples grown using the Chemical Vapor Transport (CVT) method by supplementing Se elements and optimizing the annealing conditions. After conducting experiments at a fixed pressure of 6000 atm and different annealing temperatures 400 °C, 500 °C, 600 °C, and 800 °C, we found that the optimal annealing temperature for enhancing superconducting properties was 600 °C. We performed electrical measurements and analysis on the samples before and after pressurization to investigate the effects of pressurized annealing on superconducting characteristics. Through resistance-temperature (R-T) measurements, we determined the critical temperatures to be Tc=6.45 K before pressurization and Tc=7.14 K after pressurized annealing. Furthermore, the upper critical fields, Hc2,ab(0), were 12.45 T and 14.34 T, and Hc2,c(0) were 4.16 T and 6.36 T before and after pressurized annealing, respectively. We observed that Hc2,ab was significantly greater than Hc2,c, consistent with the properties of Ising superconductors. The coherence lengths, \xi_c and \xi_{ab}, were determined to be 2.97 nm and 3.33 nm, and 8.9 nm and 6.62 nm before and after pressurization, respectively. The difference in transition width, ∆Tc(Tconset-Tc(ρ=0)), was 0.44 K and 0.17 K, and the residual resistance ratios RRR(R_{300\ K}/R_{T_c}) were 8 and 16.5 before and after pressurized annealing. Using the U-H analysis, we found that the pressurized annealing resulted in higher pinning energies in both directions. Through I-V measurements, we compared the BKT transition before and after applying a magnetic field and determined that the samples exhibited 2D characteristics. Analyzing magnetoresistance and Hall measurements revealed a positive correlation between RRR values and magnetoresistance, indicating a more evident transition of transport carriers. By comparing Hc3 and Hc2 values in the ab direction, we observed that there was not a significant difference in magnitude. However, after pressurization, at 5 K, Hc3=1.173 Hc2, which was lower than the traditional theoretical value of Hc3=1.69 Hc2, suggesting the suppression from Ising superconductivity.