A novel computational technique has revealed hundreds of ceramic materials possessing a wide range of potentially industry-disrupting properties like electronics that could function in a lava bath If you have a deep-seated, nagging worry over dropping your phone in molten lava, you’re in luck. A
An international research team has developed a method for rapidly discovering new types of materials that function at extremely high temperatures of several thousand degrees Celsius. These high-pe .
A new computational method unveils hundreds of new ceramic materials with a wide range of potentially industry-disrupting properties like electronics that could function in a lava bath
Making the switch to wurtzite ferroelectrics materialstoday.com - get the latest breaking news, showbiz & celebrity photos, sport news & rumours, viral videos and top stories from materialstoday.com Daily Mail and Mail on Sunday newspapers.
A team of researchers from Carnegie Mellon University and Penn State University is exploring novel materials that have potential to make microelectronics more energy efficient. Their recent work published in Science explores recently discovered wurtzite ferroelectrics, which are mainly composed of materials that are already incorporated in semiconductor technology for integrated circuits. These materials allow for the integration of new power-efficient devices for applications such as non-volatile memory, electro-optics, and energy harvesting.