Professor Alexander Balandin and a team of UC Riverside researchers, including Chun Ning Lau, an associate professor of physics, have taken another step toward new technology that could keep laptops and other electronic ...
ASU's NanoFab facility is teaching industry ways to manufacture better products and helping engineers and scientists develop new technologies.
In two new papers, Rice University researchers report using ultracentrifugation (UCF) to create highly purified samples of carbon nanotube species.
One team, led by Rice Professor Junichiro Kono and graduate students...
Dr. Yves Bellouard of the Department of Mechanical Engineering at the Eindhoven University of Technology is coordinator of a new European project, Femtoprint, to be started this month. The goal is to design a convenient 3D laser printer that will print microstructures in glass.
Long hampered by high manufacturing costs and durability issues, fuel cell technology could overcome those obstacles and take a significant step towards mainstream adoption thanks to a finding by a Texas A+M University chemical engineering professor.
Researchers at the University of Gothenburg, Sweden, have managed, with the help of an advanced X-ray flash, to photograph the movement of atoms during photosynthesis – an achievement that has been recognised by the journal Science.
Understanding micro- and nano-particle transportation within evaporating liquid droplets has great potential for several technological applications, including nanostructure self-assembly, lithography patterning, particle coating, and biomolecule concentration and separation.
A University of Florida engineering researcher has crafted a nickel-sized imaging device that uses organic light-emitting diode technology similar to that found in cell phone or laptop screens for night vision. But unlik...
Researchers at Universitat Autònoma de Barcelona, ICMAB-CSIC, and the firms Labein Tecnalia and Nexans, coordinated by the electrical company Endesa, have constructed a 30m cable and the terminals needed to connect it to the network using the high-temperature superconducting material BSCCO.
Engineered artificial proteins that mimic the elastic properties of muscles in living organisms are the subject of an article in Nature magazine to be released May 6. “Our goal is to use these biomaterials in tissue engineering as a type of scaffold for muscle regeneration,” said co-author Dan Dudek, an assistant professor of engineering science and mechanics at Virginia Tech.
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