A research team has created a breakthrough thin-film material that makes electronic devices tougher and more durable. This innovative material, which...
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A research team has created a breakthrough thin-film material that makes electronic devices tougher and more durable. This innovative material, which combines organic and inorganic layers, can be used in flexible solar cells, sensors, and other devices. It stands out for its ability to handle physical stress, such as rolling and unrolling, without breaking or […]
A research team has created a breakthrough thin-film material that makes electronic devices tougher and more durable. This innovative material, which...
A research team has developed a next-generation thin-film material technology that significantly improves the durability of energy and electronic...
A team of researchers, led by Queensland University of Technology (QUT), has created an ultra-thin, flexible film that can convert body heat into...
An international team of physicists, chemists and electronic engineers reports that a stabilizing ligand enables all-inorganic perovskite cells with...
A QUT-led research team has developed an ultra-thin, flexible film that could power next-generation wearable devices using body heat, eliminating the...
A QUT-led research team has developed an ultra-thin, flexible film that could power next-generation wearable devices using body heat, eliminating the...
Insider Brief: In the world of science, even a small twist may carry immense implications for materials. Researchers at City University of Hong Kong...
Graduate student Riley Bond and Professor Howard Katz added voltage to the transistor and observed its ability to retain a charge. Credit: Johns...
Graduate student Riley Bond and Professor Howard Katz added voltage to the transistor and observed its ability to retain a charge. Credit: Johns...
Rutronik Elektronische Bauelemente GmbH, one of the leading broadline distributors of electronic components, and Nisshinbo,…