Silicon two-dimensional photonic crystal nanocavities are expected to be applied to ultra-compact optical memory, silicon Raman lasers, and space charge sensors. For industrial applications, we have investigated the fabrication of such resonators by a CMOS process using ArF immersion photolithography and have realized nanocavities with a Q-value of about 2 million. This time, we fabricated a nano-resonator using an improved CMOS process and measured its photon lifetime, and we report that we obtained a Q-value of 3.5 million, which is about 1.5 times higher than the conventional Q-value.