For super-resolution microscopes, AI helps by restoring images from even noisy, low-fluorescence data. That capability helps ...
In a study published in Nature Methods on December 2, a research team led by Profs. Xu Tao and Ji Wei from the Institute of ...
Researchers propose a synergistic computational imaging framework that provides wide-field, subpixel resolution imaging ...
A process developed at ETH Zurich enables the massive miniaturisation of organic light-emitting diodes (OLEDs) in only one single step. The light sources are now smaller than the wavelength of the ...
Miniaturization ranks as the driving force behind the semiconductor industry. The tremendous gains in computer performance since the 1950s are largely due to the fact that ever smaller structures can ...
Thierry Nordmann was on his first night shift as a dermatologist at University Hospital Basel, Switzerland, when he got the emergency call. A patient was being brought in who’d had a severe reaction ...
This ETH Zurich logo consists of 2,800 nano light-emitting diodes and, at a height of 20 micrometres, matches the size of a human cell. A single pixel measures around 0.2 micrometres (200 nanometres).
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