In this study, we compared ssDNA translocation events at room temperature and high temperature (65°C) using Electroless Gold Plating (ELGP) nanopores. The ELGP nanopores operated stably even after 72 days from the start of measurement. Under high-temperature conditions, the translocation speed increased approximately 15-fold compared to room temperature. These results suggest that ELGP nanopores possess high chemical and mechanical stability and are capable of measuring ssDNA translocation events in high-temperature environments.