बैटरी जो चलेगी 5000 SAAL . Nano-Diamond Batteries - buyndb.com

बैटरी जो चलेगी 5000 SAAL . Nano-Diamond Batteries

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Nano-Diamond Batteries
Applications of Nano-Diamond Batteries
Automotive: This battery could bring about a revolution in the world of electric cars. Researchers believe that this technology will benefit the electric car industry due to its immense longevity and efficiency, unlike any other existing batteries.
Medical Technology: These batteries could immensely contribute to medical devices, especially implantable devices, for example, pacemakers and hearing aids. The long battery life of nano-diamond batteries would be extremely beneficial for patients using such medical implants.
Aerospace: Recent advancements in space technology include electric aircraft development that has created the demand for batteries with longevity and safety. Space vehicles and satellites are currently supported by solar power, which is subjected to an unsettling space environment. NDB powers electric aircraft, drones, and space stations for a more extended period.
Electronics: The use of NDB for powering standard electronic devices such as laptops and smartphones negates the need to charge such devices continually. NDB claims the use of their product would benefit the consumers by providing them with power outlet independent devices and increasing personal quantum computing and the device’s computational power.
Defense: NDB can be used in surveillance systems and electronics.
Commonly available electricity-generation technologies utilize energy for moving a magnet via a coil of wire to produce a current. However, the diamond battery can generate current when placed close to a radioactive source. A team of researchers from the University of Bristol has developed a human-made diamond. This material can generate a low electrical power when put under the influence of a radioactive field.
he researchers at the Cabot Institute have used Nickel-63 as a radioactive source for demonstrating a prototype ‘diamond battery’. The radioactive source is encapsulated inside a diamond to produce a nuclear-powered battery. However, the team envisioned using radioactive carbon-14 to obtain a battery with greater efficiency. Tom Scott, Professor in Materials at the University of Bristol, explained the advantages of the technology. He said that this technology would involve the long-term production of clean energy from nuclear waste and not require any maintenance as there are no moving parts or emissions.
n 2020, NDB announced two proof-of-concept tests conducted at the Cavendish Laboratory at Cambridge University and Lawrence Livermore National Laboratory in California. As stated above, the nano-diamond battery from the NDB used nuclear waste to generate power. The radioactive core is protected with multiple layers of synthetic diamonds or polycrystalline diamond.
The polycrystalline diamond is an exceptionally thermally conductive material. This material also can contain the radiation within the device. The use of a polycrystalline diamond makes the nano-diamond battery immensely tough and tamperproof.
Technologies behind the development of nano-diamond batteries that ensure radiation, thermal, and mechanical safety are discussed below: