As artificial intelligence (AI) technology advances, the demand for higher-performing semiconductors is rapidly growing. The development of new...
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The ideal material for interfacing electronics with living tissue is soft, stretchable, and just as water-loving as the tissue itself: in short, a hydrogel. Meanwhile, semiconductors—the key materials for bioelectronics such as pacemakers, biosensors, and drug delivery devices—are traditionally known to be rigid, brittle, and water-hating. A paper published in Science from the UChicago Pritzker […]
As artificial intelligence (AI) technology advances, the demand for higher-performing semiconductors is rapidly growing. The development of new...
Imagine a world where our electronic devices are powered by living microbes and naturally break down after use, leaving no harmful waste behind. This...
Murata Manufacturing Co., Ltd reveals an innovative new Stretchable Printed Circuit (SPC) technology marking a…
Researchers at the Ningbo Institute of Materials Technology and Engineering (NIMTE), part of the Chinese Academy of Sciences, have developed a new...
Scientists on Wednesday said that they have successfully stirred a strange matter called a "supersolid"—which is both rigid and fluid—for the...
Chairperson of department of electronic science Prof Mukesh Kumar said that this conference will serve as a platform for scientists and experts to...
bPembrolizumab, an immunotherapy medication/b, significantly enhanced disease-free survival when added to the standard of care for patients with...
Scientists have mapped how aging happens across different organs in mice, finding common patterns of tissue damage and loss of cell identity. The...
Materials scientists can now use insight from a very common mineral and well-established earthquake and avalanche statistics to quantify how hostile...
Recent research by Chinese scientists suggests that shifts in climate may have contributed to the collapse of the Ming Dynasty, one of China’s most...