Hard times for burglars and safecrackers: Empa researchers have developed an invisible "keyhole" made of printed, transparent electronics. Only authorized persons know where to enter the access code.
New Mexico students are encouraged to apply for the free, two-week, virtual Summer Physics Camp for Young Women, taught primarily by women scientists and engineers at Los Alamos National Laboratory.
Hertz Fellow David Schaffer uses high throughput genetic sequencing technology to identify gene variants that can potentially help restore sight, repair hearts damaged by Fabry disease, and improve lung function in patients with cystic fibrosis.
Cornell University researchers have created micron-sized shape memory actuators that enable atomically thin two-dimensional materials to fold themselves into 3D configurations. All they require is a quick jolt of voltage. And once the material is bent, it holds its shape – even after the voltage is removed.
A world-first 'flow model' devised by Australian researchers could drastically slash public transport commuter times during peak periods on some of the busiest roads in major cities, new research shows.
With topics ranging from the food we eat, the air we breathe, and the land we dwell on to the health of our body and mind, and the well-being of all things in the universe, this is a program that is for everyone and anyone. So, stay tuned and listen LIVE on Chula Radio Plus
Ongoing and secure supply of critical minerals is essential to the transition to a high-tech and clean energy world.
Launched on Thursday 11 March, the University of Adelaide’s Australian Critical Minerals Research Centre will carry out multidisciplinary research in the discovery and extraction of critical minerals to benefit society.
The National University of Singapore (NUS) and Johnson Controls, the global leader for smart, healthy and sustainable buildings, will embark on a joint collaboration on smart buildings research. Johnson Controls will commit about S$5 million into this research programme, and teams from both organisations will work together to address industry-wide challenges.
Healthy and cancer cells can look similar under a microscope. One way of differentiating them is by examining the level of acidity, or pH level, inside the cells. Tapping on this distinguishing characteristic, a research team from the National University of Singapore (NUS) has developed a technique that uses artificial intelligence (AI) to determine whether a single cell is healthy or cancerous by analysing its pH. Each cancer test can be completed in under 35 minutes, and single cells can be classified with an accuracy rate of more than 95 per cent.
The electron is one of the fundamental particles in nature we read about in school. Its behavior holds clues to new ways to store digital data. A new study explores alternative materials to improve capacity and shrink the size of digital data storage technologies. Specifically, the Michigan Tech team found that chromium-doped nanowires with a germanium core and silicon shell can be an antiferromagnetic semiconductor.
The National Science Foundation (NSF) selected NYU Tandon assistant professor Anna Choromanska, who is developing new approaches to training deep learning systems, to receive its most prestigious award for promising young academics.
he U.S. Department of Energy (DOE) today announced $18 million in new funding to advance particle accelerator technology, a critical tool for discovery sciences and optimizing the way we treat medical patients, manufacture electronics and clean energy technologies, and defend the nation against security threats.
This project at Argonne National Laboratory is focused on better understanding light-responsive organic materials for a future with flexible, highly efficient photovoltaics and cutting-edge optical tools.
A Florida State University professor’s research could help quantum computing fulfill its promise as a powerful computational tool. William Oates, the Cummins Inc. Professor in Mechanical Engineering and chair of the Department of Mechanical Engineering at the FAMU-FSU College of Engineering, and postdoctoral researcher Guanglei Xu found a way to automatically infer parameters used in an important quantum Boltzmann machine algorithm for machine learning applications.
Researchers from the Department of Energy’s Lawrence Berkeley National Laboratory (Berkeley Lab) and the University of California, Los Angeles published a new study that makes the case for prioritizing public policy to help move long-haul trucking from diesel to electric. Doing so will mean huge gains in addressing the climate crisis and avoiding premature deaths due to local vehicular pollution, which disproportionately affects communities of color.
A Los Alamos National Laboratory-designed spectroscopy instrument allows scientists, industry, and governments to decipher even trace amounts of chemicals using the Earth’s own magnetic field.
A team of scientists at the Center for Bright Beams (CBB) – a National Science Foundation Science and Technology Center led by Cornell University – are working on the next generation of superconducting materials that will greatly reduce the costs associated with operating large particle accelerators and lessen their environmental impact.
Robotics researchers are developing exoskeletons and prosthetic legs capable of thinking and making control decisions on their own using sophisticated artificial intelligence (AI) technology.
Researchers at Empa and ETH Zurich have made wood compressible and turned it into a micro-generator. When it is loaded, an electrical voltage is generated. In this way, the wood can serve as a bio-sensor - or generate usable energy. The latest highlight: To ensure that the process does not require aggressive chemicals, naturally occurring wood-degrading fungi take over the task of modifying the wood.
The Department of Energy pledged $1.68 million to Argonne National Laboratory over three years so it can create a virtual platform or digital twin that will allow experimentalists to explore their proposed studies prior to visiting the labs.
DHS S&T today announced that Dignari, a woman-owned small business from Alexandria, Virginia as the grand-prize winner of the Digital Wallets Challenge.
A new Department of Energy open-access quantum computing testbed is ready for the public. Scientists from Indiana University recently became the first team to begin using Sandia National Laboratories' Quantum Scientific Computing Open User Testbed, or QSCOUT.
Researchers at The University of South Australia have successfully tested a system that can monitor soil moisture using just a standard camera and an AI algorithm. The system holds huge potential as a simple, affordable solution for smart agriculture, allowing for automated, precision irrigation.
DHS S&T awarded $775,000 to the Harvard University T.H. Chan School of Public Health to conduct research and evaluate the impact of the Department’s Blue Campaign.
Researchers at UCL have solved a major piece of the puzzle that makes up the ancient Greek astronomical calculator known as the Antikythera Mechanism, a hand-powered mechanical device that was used to predict astronomical events.
A team of Chula doctoral students has created a smart “DynaSeat” to adjust sitting behavior to prevent neck pain and promote fast recovery after office syndrome.
Engineers created light-activated materials that execute precise movements and form complex shapes without the need for wires, motors or other energy sources. The research could lead to smart light-driven systems such as high-efficiency solar cells that automatically follow the sun’s direction.
The events following the Fukushima disaster, a decade ago, drew upon Berkeley Lab’s long-standing expertise in radiation measurements and safety, and led to the creation of long-term radiation-monitoring programs, both locally and in Japan, as well as a series of radiation surveys and technology demonstrations including drone- and helicopter-based surveys, and vehicle-based and hand-carried measurements.
Scientists have long sought to develop synthetic membranes with the selectivity and high-speed transport of natural membranes. New research designed a unique polymer-based material as effective as natural membrane proteins in transporting protons through membranes. The finding could have applications in batteries, water purification, biofuels, and pharmaceuticals, and in scalable synthetic materials for entirely new technologies.
As NASA’s Mars Perseverance Rover continues to explore the surface of Mars, scientists on Earth have developed a new nanoscale metal carbide that could act as a “superlubricant” to reduce wear and tear on future rovers.Researchers in Missouri S&T’s chemistry department and Argonne National Laboratory’s Center for Nanoscale Materials, working with a class of two-dimensional nanomaterials known as MXenes, have discovered that the materials work well to reduce friction.
Biological molecules are nearly invisible to the X-rays used to make 3D CT scans. To make these scans of biomolecules, researchers must attach a tag to the molecules that glows when illuminated with X-rays. In this study, scientists used this technique and a tiny synchrotron X-ray beam to image a membrane protein on the surface of a single E. coli bacteria.
A high-performance composite material invented at the University of Delaware has earned $20M in federal funding in the last year to explore applications such as flying taxis and using robots to repair natural gas pipelines.
Texas Biomedical Research Institute received two Department of Defense (DoD) Defense Health Agency subcontracts, totaling nearly $2 million, to assess the efficacy of surface coating and aerosolized decontamination technologies to combat SARS-CoV-2 on surfaces and in the air.
Parents would never give their children the keys to the car without supervised training and driver’s education. An Iowa State University researcher says parents and educators need to take a similar approach before handing children a keyboard to access the digital world.
Irvine, Calif., March 11, 2021 – Catastrophic collapse of materials and structures is the inevitable consequence of a chain reaction of locally confined damage – from solid ceramics that snap after the development of a small crack to metal space trusses that give way after the warping of a single strut. In a study published this week in Advanced Materials, engineers at the University of California, Irvine and the Georgia Institute of Technology describe the creation of a new class of mechanical metamaterials that delocalize deformations to prevent failure.
How do you turn “dumb” headphones into smart ones? Rutgers engineers have invented a cheap and easy way by transforming headphones into sensors that can be plugged into smartphones, identify their users, monitor their heart rates and perform other services. Their invention, called HeadFi, is based on a small plug-in headphone adapter that turns a regular headphone into a sensing device. Unlike smart headphones, regular headphones lack sensors. HeadFi would allow users to avoid having to buy a new pair of smart headphones with embedded sensors to enjoy sensing features.
The new material, which the Advanced Photon Source helped characterize, is strong yet stretchable, and could be ideal for creating artificial tendons and ligaments for prosthetics and robotics.
Today, Atropos Health, the developer of the first physician consultation service powered by research grade real-world evidence, announces four key additions to its founding team: Neil Sanghavi as President and Head of Solutions, Sharath Reddy as CFO and Head of Corporate Development, Vladimir Polony as Director of Engineering, and Yen Low as Director of Data Science.
To rapidly advance the field of artificial intelligence and autonomy, FAU’s College of Engineering and Computer Science recently unveiled its “Center for Connected Autonomy and Artificial Intelligence.”
Following the successful landing of NASA's Perseverance rover in Jezero Crater on Mars, the SuperCam operational teams at Los Alamos National Laboratory and the French National Centre for Space Studies (CNES) received the first results showing that SuperCam is in good health and giving its first impressions of the crater.
Artificial intelligence is part of our modern life by enabling machines to learn useful processes such as speech recognition and digital personal assistants. A crucial question for practical applications is how fast such intelligent machines can learn. An experiment at the University of Vienna has answered this question, showing that quantum technology enables a speed-up in the learning process.
SpinQuest is a collaboration of 50 individuals from 13 institutions from around the world. It starts at Fermilab’s Main Injector accelerator, which will fire our familiar protons at a polarized target. A quark from a proton in the proton beam and an antiquark from a proton in the target will interact, eventually producing a pair of oppositely charged muons, heavier cousins of the electron.
SpinQuest is supported by the DOE Office of Science.
An ORNL team has devised a way to extract Pm-147 from the liquid runoff left after Pu-238 production. This reduces radioactive elements that must be disposed of but also, if sustainable, could establish a domestic supply of Pm-147, for which there is already demand.
Computer engineers at the world’s largest companies and universities are using machines to scan through tomes of written material. The goal? Teach these machines the gift of language. Do that, some even claim, and computers will be able to mimic the human brain.
But this impressive compute capability comes with real costs, including perpetuating racism and causing significant environmental damage, according to a new paper, “On the Dangers of Stochastic Parrots: Can Language Models Be Too Big?
DHS S&T announces today the recipients of Scientific Leadership Awards who will partner with S&T-supported COE to develop Homeland Security (HS) course content and creatively engage students and faculty in research relevant to the complex challenges faced by DHS and the Homeland Security Enterprise.
Mount Sinai Health System announced today that Kantaro Biosciences, LLC, a joint venture with RenalytixAI, has been named to Fast Company’s prestigious annual list of the “World’s Most Innovative Companies” for 2021 and ranked first in the Joint Ventures category.