This study proposes a novel shielding technology to enhance the survivability of transportable ground-based command and control systems against North Korea's electromagnetic pulse(EMP) threats. By leveraging the exceptional electromagnetic shielding performance of two-dimensional materials such as MXene and copper nanoplates, we aim to utilized to supplement the vulnerability of transportable ground-based command and control systems when exposed to EMP. According to the experimental results of these materials, the proposed shielding materials showed superior shielding effects compared to conventional materials, and especially showed excellent performance in the high-frequency range. The results of this research are expected to ensure the safety of military systems against EMP threats by utilizing 2D shielding materials, thereby demonstrating effective command and control functions in future battlefields.
