In this study, we develop a Na-CO₂ battery with WiS and Na-super-ionic conductor (NASICON) electrolytes that were used as energy storage cells and CO₂ gas utilization. The NASICON separator allowed us to fabricate a hybrid Na-CO₂ battery comprising Na metal as the anode material and WiS as the cathode electrolyte without damage of Na metal. Additionally, linear sweep voltammetry (LSV) with corresponding differential electrochemical mass spectroscopy (DEMS) measurements rendered the direct observation of H₂ evolution retardation with increasing WiS concentration. Furthermore, we introduced a nano-sized Ru catalyst onto the current collector using Joule heating method for reducing the overpotential gap. Consequently, the Na-CO₂ batteries with Ru@carbon current collector reduced the overpotential gap and exhibited a cycling endurance of over 75 cycles.