Artificial neural networks - algorithms inspired by connections in the brain - have "learned" to perform a variety of tasks, from pedestrian detection in self-driving cars, to analyzing medical images, to translating languages. Now, researchers at the University of California San Diego are training artificial neural networks to predict new stable materials.
By creating a new twist on fiber optic sensors, researchers in China have developed a smart, flexible photoacoustic imaging technique that may have potential applications in wearable devices, instrumentation and medical diagnostics.
Blood pumps are increasingly a bridge-to-transplant for patients with end-stage heart disease or heart failure, but blood clots and strokes can put patients in peril before they receive a donor heart. Now a four-year, $3 million grant from the National Institutes of Health may solve this problem and perhaps open the pumps' use for less-sick patients who could benefit from them.
An international team led by Assistant Professor Kasper Steen Pedersen, DTU Chemistry, has synthesized a novel nano material with electrical and magnetic properties making it suitable for future quantum computers and other applications in electronics.
Organic light-emitting diodes (OLED) are mainly known from televisions and smartphone displays. The Fraunhofer Institute for Organic Electronics, Electron Beam and Plasma Technology FEP as a partner for customer-specific OLED development and production is now presenting OLED elements that can be integrated into textiles. OLED could be used for medical treatment aswell.
A new tool to model how magnetic materials, which are used in smartphones and other communications devices, interact with incoming radio signals that carry data. It accurately predicts these interactions down to the nanometer scales required to build state-of-the-art communications technologies.
Advanced 3D printing with thermoplastic composites: To achieve that goal, the Fraunhofer Institute for Microstructure of Materials and Systems IMWS in Halle (Saale) and Brightlands Materials Center in the Netherlands are going to collaborate. Together, the partners want to optimize fiber-reinforced thermoplastics to make them ideally suited for 3D printing on an industrial scale.
A group of new smart materials discovered by researchers at Texas A&M University and their colleagues has the potential to significantly improve the efficiency of fuel burn in jet engines, cutting the cost of flying. The materials, which could also reduce airplane noise over residential areas, have additional applications in a variety of other industries.
The 3D printing of plastics has largely come of age in the last decade, solving many of the engineering challenges in the process, these solutions are now ready to be applied to the 3D printing of metal
Harvard University researchers have developed a new printing method that uses sound waves to generate droplets from liquids with an unprecedented range of composition and viscosity. This technique could finally enable the manufacturing of many new biopharmaceuticals, cosmetics, and food and expand the possibilities of optical and conductive materials.
Start of the anniversary year – with 20 towels extra for ready-to-use disinfection wipes Dr. Schumacher GmbH starts in its anniversary year. The company was founded in 1978 by Dr. Henning Schumacher...