Scientists from the University of Bristol and UKAEA have developed the first carbon-14 diamond battery, capable of powering devices for thousands of years. Utilizing the radioactive decay of carbon-14, this battery offers a sustainable energy source for applications in medical devices, space technology, and extreme environments. The innovation leverages expertise from fusion energy research and could revolutionize power supply in various fields by providing continuous microwatt levels of power.
Scientists from the University of Bristol and the UK Atomic Energy Authority have unveiled the world's first nuclear-powered diamond battery, which uses carbon-14 to generate electricity and has a lifespan of 5,700 years. Encased in diamond, the battery safely captures radiation, making it a sustainable and durable power source for applications in medicine, space, and remote locations. This innovation not only offers a long-lasting energy solution but also helps reduce nuclear waste by repurposing carbon-14 from nuclear reactors.
Scientists from the UK Atomic Energy Authority and the University of Bristol have developed the world's first carbon-14 diamond battery, capable of powering devices for thousands of years. This innovative battery uses the radioactive decay of carbon-14 to generate power, offering potential applications in medical devices, space technology, and extreme environments. The technology leverages expertise from fusion energy research and could revolutionize power sources for long-term use.
