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168 notícias encontradas para "developed"
New 200Gbps photodetector doubles optical reception capacity for data centers
New 200Gbps photodetector doubles optical reception capacity for data centers
Korean researchers have developed, for the first time in Korea, a 200Gbps-class photodetector device for use in hyperscale AI data centers and 5G/6G mobile communications infrastructure. The technology enables ultrahigh-speed data reception fast enough to transmit five 5GB full H
Computer-guided electricity rapidly transforms flat nanofilms into 3D shapes on demand
Computer-guided electricity rapidly transforms flat nanofilms into 3D shapes on demand
Researchers at Nagoya University in Japan have developed a method to form dome-shaped bumps on nanofilms in water using a computer-guided electron beam. The bumps form within 10 seconds and can be flattened, reshaped or repositioned as needed.
Chitosan-based hydrogel membranes as transparent biomaterials for skin regeneration
Chitosan-based hydrogel membranes as transparent biomaterials for skin regeneration
IMDEA Materials Institute has developed mechanically tunable hydrogel membranes that closely mimic the mechanical environment of human skin while remaining highly biocompatible, representing an improved platform for skin tissue engineering and regenerative medicine.
Random by design: Flickering genes may spend energy to achieve precision
Random by design: Flickering genes may spend energy to achieve precision
Inside the cell nucleus, genes must be turned on and off with precision to regulate biological processes. The first models of gene regulation were developed in the 1960s, yet modern science continues to uncover new layers of control. A new study involving researchers from the Ins
Zirconium tweak unlocks stronger cast aluminum alloy with ductility boost
Zirconium tweak unlocks stronger cast aluminum alloy with ductility boost
Researchers at the Department of Materials Engineering (MatE), Indian Institute of Science (IISc), and collaborators have developed a new lightweight cast aluminum alloy that is both exceptionally strong and remarkably ductile, overcoming one of the biggest challenges in the stru
White-beam neutron device unlocks precise control of twisted quantum waves
White-beam neutron device unlocks precise control of twisted quantum waves
CANISIUS is the official name of the new spin-echo neutron interferometer developed at Atominstitut, TU Wien. It enables precise control of neutron waves, something that was previously impossible.
Floating-electron catalyst withstands week in air while making ammonia under milder condit
Floating-electron catalyst withstands week in air while making ammonia under milder condit
A surface electrene, BaSiN2:O, developed by researchers at Science Tokyo enables efficient ammonia synthesis under mild conditions while overcoming the long-standing air instability of electrene materials. Synthesized by doping barium silicon nitride with oxygen, the material for
Researchers develop harder, longer-lasting silver plating
Researchers develop harder, longer-lasting silver plating
A research team led by Seil Kim of the Korea Institute of Materials Science (KIMS) Energy & Environmental Materials Research Division has developed an Ag–PTFE composite plating technology that produces silver coatings with greater hardness and wear resistance than conventional si
First-of-its-kind computer model tackles antibiotic resistance
First-of-its-kind computer model tackles antibiotic resistance
Faster and more effective ways to treat Pseudomonas aeruginosa, a bacterium identified by the World Health Organization (WHO) as one of the most life-threatening pathogens, could be possible thanks to a first-of-its-kind 3D computer model developed by the University of Surrey.
New atomic trap boosts quantum performance by using surface forces
New atomic trap boosts quantum performance by using surface forces
Researchers at Humboldt-Universität zu Berlin have developed a new method for trapping and controlling atoms near an ultrathin glass fiber. This has significantly improved the atoms' ability to store quantum information—an important step forward for future quantum technologies.
New cell imaging method shines a light on blind spots
New cell imaging method shines a light on blind spots
Cells are crowded, dynamic places where thousands of molecules interact in tight quarters. Until now, scientists lacked a reliable way to see many of these molecular interactions as they happen. Researchers at the University of Illinois Chicago have now developed a new imaging me
A new smart coating could improve the cleanup of nuclear wastewater
A new smart coating could improve the cleanup of nuclear wastewater
Scientists in China have developed a smart coating that could make it easier to remove tritium (a radioactive form of hydrogen) from nuclear power plant wastewater.