A team led by scientists has designed and tested a 3D-printed metamaterial that can manipulate light with nanoscale precision. Their designed optical element focuses light to discrete points in a 3D helical pattern.
Read moreChemists have developed a new method with which they can characterize individual noble-metal-free nanoparticle catalysts. The particles could be a cheap alternative to precious metal catalysts for obtaining hydrogen from water by means of electrolysis.
Read moreA team of scientists has made the strongest silver ever — 42 percent stronger than the previous world record. It's part of a discovery of a new mechanism at the nanoscale that can create metals much stronger than any ever made before — while not losing electrical conductivity.
Read moreChemists have fabricated for the first time plasmonic color-switchable films of silver nanoparticles. Until now, such color changing of nanoparticles was mainly achieved in liquids, limiting their potential for practical applications. The technology has a number of applications: product authentication, color displays, signage, sensors, and information encryption.
Read moreScientists have measured how the super-plastic material ultra-high-molecular-weight polyethylene, commercially known as Dyneema or Spectra, interacts when bolted to other materials. The research has established guidelines and failure maps for use of the material in joints with steel bolts. The research shows that while the material deforms at the joints, it's incredible difficult to actually break the fibers.
Read moreResearchers have designed 3-D printed mesh-like structures that morph from flat layers into predetermined shapes, such as a human face, in response to changes in ambient temperature.
Read moreBorophene has a nearly perfect partner in a form of silver that could help the trendy two-dimensional material grow to unheard-of lengths.
Read moreIn a proof-of-concept experiment, researchers say they have successfully used microscopic human-made particles to predict the severity of patients' chronic obstructive pulmonary disease (COPD) by measuring how quickly the particles move through mucus samples. The technique, say the researchers, could eventually help doctors deliver more effective treatments sooner.
Read moreIn 2 breakthroughs in the realm of photonics, researchers are reporting the successful demonstration of an LED (light-emitting diode) based on half-light half-matter quasiparticles in atomically thin materials. This is also the first successful test of an electrically driven light emitter using atomically thin semiconductors embedded in a light trapping structure (optical cavity).
Read moreThe complex interplay among the arteriovenous grafts, the vessels they connect, and the blood they transport has been difficult to simulate, but one new method provides a way. Researchers report simulations that reconstructed the fluid dynamics affected by the insertion of an AVG. They used a model that considered the ability of AVG tubes and blood vessels to deform and found much of the disrupted flow could be mitigated by this flexibility.
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