New technology allows scientists to measure wavefront distortions induced by the specimen, either a cell or a tissue, directly from the signals generated by single molecules - tiny light sources attached to the cellular structures of interest.
Nanotechnology News from Nanowerk
New technology allows scientists to measure wavefront distortions induced by the specimen, either a cell or a tissue, directly from the signals generated by single molecules - tiny light sources attached to the cellular structures of interest. • Email to a friend • A single-crystal electrode that promises to yield pivotal discoveries for advanced batteries under development worldwide for electric vehicles, consumer electronics and other applications. • Email to a friend • Researchers have created an efficient, low-cost device that splits water to produce hydrogen fuel. • Email to a friend • The project XtraUS - Fighting cancer relapse with remote activation of smart and targeted nanoconstructs - is aimed at testing and validating an innovative technology to contrast the presence of circulating cancer cells in the bloodstream and to consequently reduce recurrences. • Email to a friend • Researchers turn a single atom into a quantum engine and a quantum fridge. • Email to a friend • Researchers report that they have found a way to control molecular machines so that they move in a certain direction - for example, into the bloodstream. • Email to a friend • Researchers report the development of the smallest microelectronic robot in the world, which is driven and controlled by a twin-jet-engine. • Email to a friend • Nerve cells have now been introduced into spherical cage structures using acoustic bioprinting technology, so that multicellular nerve tissue can develop there. • Email to a friend • Sintering is a critical processing technology in the production of ceramic materials that uses high heat to compact ceramic powders into a solid form. Sintering of pure oxide ceramics requires relatively long processing times (about 20 hours) and high temperatures of 800 degrees Celsius or more. Researchers have now developed an ultrafast high-temperature sintering technique to fabricate solid state electrolytes for solid state batteries with dense structure and excellent electrochemical performance. • Email to a friend • |
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