Munich-based team show how nanotubes can store information in the form of vibrations.

Munich-based team show how nanotubes can store information in the form of vibrations.
Researchers from the Karlsruhe Institute of Technology and French colleagues from Grenoble and Strasbourg build novel quantum mechanical system.
Chemists at USF and KAUST have discovered a more efficient, less expensive and reusable material for carbon dioxide (CO2) capture and separation.
Carbon nanowires have been obtained by tempering diamantane dicarboxylic acid inside carbon nanotubes.
Material investigated by USF and KAUST chemists could be a breakthrough in developing new tools for cleaner air and energy production.
Ultralight, flexible, fire-resistant carbon nanotube aerogels fabricated from bacterial cellulose.
NIST make “play for leadership in laser power measurements” with new chip design.
Safety fears about carbon nanotubes have been alleviated following research showing that reducing their length removes their toxic properties.
University of Michigan researchers develop focused ultrasound technique for use in microsurgery.
A nanomaterial engineered by researchers at Duke can help regulate chloride levels in nerve cells that contribute to chronic pain, epilepsy, and traumatic brain injury.