Scientists have invented a new way to view and create what they are calling 'an electron superhighway' in an organic semiconductor. This approach promises to allow electrons to flow faster and farther - aiding the hunt for flexible electronics, organic solar cells, and other low-cost alternatives to silicon.
Sep 14th, 2015
Read more
The Purdue College of Engineering is using the university's advanced cleanroom at Birck Nanotechnology Center for the laboratory to expand an electrical and computer engineering class that exposes undergraduate students to high-end research.
Sep 14th, 2015
Read moreThe findings reveal a unique model that enables fast and accurate prediction of novel alloy materials for efficient chemical conversions.
Sep 14th, 2015
Read more
A new spectroscopy method is bringing researchers closer to understanding - and artificially replicating - the solar water-splitting reaction at the heart of photosynthetic energy production. Understanding the step-by-step mechanism of photosynthesis could lead to methods of producing highly efficient solar energy.
Sep 14th, 2015
Read more
Researchers have found that it is possible to make an electric circuit with a magnetic insulator. This was previously deemed impossible. The circuit is realized using spin waves: wave-like perturbations in the magnetic properties of a material.
Sep 14th, 2015
Read more
The new technique involves monitoring photocurrent transients in specially engineered photodetectors that provide very high temporal resolution of only 50 picoseconds.
Sep 14th, 2015
Read moreTelecommunication networks will soon have to exploit the quantum properties of light. Researchers recently generated directly cross-polarized photon pairs on a chip, a first in quantum optics. Polarization will now be among the controllable parameters for harnessing light, helping the creation of low cost, high performance, energy efficient technologies.
Sep 14th, 2015
Read more
Scientists used electron microscopes to capture images of the largest type of motor protein, called dynein, during the act of stepping along its molecular track.
Sep 14th, 2015
Read more
A research team has discovered that a primitive form of the liquid-gas transition extends far into the supposedly featureless supercritical phase at the molecular scale in water and demonstrated that the conclusions are likely to apply more generally.
Sep 14th, 2015
Read more
Researchers have built an atomic X-ray laser with the shortest wavelength yet, producing a stable beam with a wavelength of 1.5 Angstrom, or 0.15 nanometers. This tiny wavelength is nearly ten times shorter than that of previously-reported atomic lasers.
Sep 14th, 2015
Read moreA mathematical model has been presented in this research, which is able to predict the behavior of the structures under static and dynamic loads.
Sep 13th, 2015
Read more
The list of potential mechanisms that underlie an unusual metal-insulator transition has been narrowed by a team of scientists using a combination of X-ray techniques. This transition has ramifications for material design for electronics and sensors.
Sep 11th, 2015
Read moreAn overview of regulatory solutions worldwide on the use of nanotechnology in food and feed production shows a differing approach: only the EU and Switzerland have nano-specific provisions incorporated in existing legislation, whereas other countries count on non-legally binding guidance and standards for industry.
Sep 11th, 2015
Read moreTwisting conventional nanowires into springs can boost their light absorption by more than 20 percent, while using up to 50 percent less area.
Sep 11th, 2015
Read more
The crystal structure of metals can change at linear defects, which should affect the properties of the materials.
Sep 11th, 2015
Read more
Researchers propose a novel SPR sensing configuration using graphene-MoS2 hybrid structures.
Sep 11th, 2015
Read more
Subscribe to our Nanotechnology Research News feed
Engage with our Nanotechnology News on Facebook