Single-walled carbon nanotubes stacked silver nanowires (SWNT/AgNW) are attracting attention as transparent electrodes due to their unique properties; however, the thin films suffer from poor thermal stabilities because AgNWs melt at high temperatures (over 200 degrees celsius) and their networks are damaged. To overcome this problem, SnO₂-coated AgNWs films (AgNW@SnO₂) were reported, but sheet resistance was considerably increased by preventing direct contact among AgNWs through SnO₂ insulating layers. In this study, I have attempted to fabricate low-sheet-resistance and high-thermal-stability SWNT films stacked with AgNW@SnO₂ by a filter transfer method. The as-prepared thin films show improved sheet-resistance values of ~20 ohm sq^-1 at room temperature which are maintained until 400 degrees celsius.