Fire-Retardant Lithium Metal Battery Prototype Developed; Nickel-Cobalt Replacement and Underground Hydrogen Advances Highlight Energy Innovations

Researchers have developed a lithium metal battery prototype that incorporates a built-in flame-retardant polymer, which releases fire-inhibiting chemicals when the battery overheats, significantly enhancing safety by reducing the risk of fires and explosions. This advancement in lithium battery technology has been noted by multiple scientific sources as a potential breakthrough in battery safety. Additionally, a new method has been introduced that replaces nickel and cobalt in lithium-ion batteries, aiming to produce cleaner and more cost-effective energy storage solutions. In parallel, a study from Oxford, Durham, and Toronto universities highlights Earth's underground hydrogen reserves as a potential energy source capable of powering humanity for millions of years, with countries like France, Japan, and Australia actively pursuing drilling initiatives. Other notable scientific developments include experiments with laser technology that could revolutionize energy transmission by enabling electricity generation from air and bring internet connectivity to the solar system, as well as the observation of magnetism between atoms, which may transform physics and technology. These innovations collectively signal significant progress in energy technology and materials science.