The recent research on magnetic field sorting of superconducting graphite particles, particularly with critical temperatures (Tc) exceeding 400K, marks a potential breakthrough in superconductivity. While initially garnering minimal attention, the implications of this technology could be vast, as it suggests the feasibility of creating superconducting materials that function at room temperature. The shift from traditional semiconductors, which typically operate at critical temperatures below -73 degrees C, to materials that could function effectively beyond room temperature introduces significant opportunities for advancing electronic circuit design and manufacturing processes. However, there remain cautionary tones within the community regarding practical limits in material processing and circuit fabrication environments, which might still impose more stringent thermal constraints. Further exploration is needed to understand the nuances and full potential of these superconducting applications in electronics, including considerations of how these materials might interact under various operational conditions. Overall, while the initial hype may be tempered by uncertainties, this research lays foundational work for the future of electronics and superconductivity.