For anyone curious, I asked ChatGPT What would be the implications if true, and here was it’s reply:

As of my last knowledge update in September 2021, there had been no verified room-temperature ambient-pressure superconductors. However, if such a claim were to be validated and a room-temperature superconductor were indeed discovered, it would have profound implications across various fields:

1. Energy Efficiency: Room-temperature superconductors would revolutionize power generation, transmission, and storage. Power grids and electrical devices that utilize superconductors could operate without energy losses due to resistance, resulting in significantly improved energy efficiency.
2. Transportation: Room-temperature superconductors could be used in magnetic levitation (Maglev) trains, making them more practical and cost-effective to implement. Maglev trains already have lower friction and energy consumption than traditional trains, and with superconductors, their performance could be further enhanced.
3. Medical Applications: Magnetic resonance imaging (MRI) machines that use superconducting magnets would become more accessible and cheaper to operate. This could lead to increased availability of high-quality medical imaging and improved healthcare diagnostics.
4. Electronics: Room-temperature superconductors could enable the development of extremely fast and energy-efficient electronic devices, leading to advancements in computing and communication technologies.
5. Scientific Research: Superconductors are essential for high-energy physics research, so a room-temperature superconductor would potentially revolutionize particle accelerators, allowing for more accessible and cost-effective facilities for scientific exploration.
6. Renewable Energy: The efficiency of renewable energy sources like wind and solar power could be greatly improved by using superconductors in their power generation and storage systems.
7. Transportation Electrification: Electric vehicles (EVs) could benefit from room-temperature superconductors, allowing for faster charging and longer-range capabilities.
8. Industrial Applications: Superconductors could enhance the efficiency of motors, generators, and other industrial equipment, leading to reduced energy consumption and lower greenhouse gas emissions.
9. Aerospace: Aerospace technologies could benefit from lightweight, energy-efficient superconducting components, making space exploration and aviation more economical and sustainable.
10. Scientific Understanding: The discovery of room-temperature superconductors could potentially lead to new insights into the fundamental principles of condensed matter physics, offering a deeper understanding of quantum mechanics and material properties.

It’s important to note that claims of room-temperature superconductors need to be carefully scrutinized and independently verified by the scientific community. If such a discovery were confirmed, it would be a groundbreaking achievement with far-reaching implications for various industries and scientific research.