Dam Failure Expert Available to Talk About Brazil Dam Collapse
Missouri University of Science and Technology
Scientists from The Australian National University (ANU) have used new space technology to predict droughts and increased bushfire risk up to five months in advance.
MEDIASHAREiQ drives learner engagement with easy to manage immersive content. Organize and edit media content with robust search, tag, and comment capabilities plus in-video quizzing, scoring, and polling. Featuring turnkey integration with Blackboard®, Canvas® and D2L® for seamless host, capture, and delivery of interactive media content.
Telemedicine mitigates clinical staff shortfalls, particularly in remote areas. SIMULATIONiQ is a web based LMS supporting the entire scope of virtual, live, and didactic education. Train as you practice, host, practice and share live telemedicine patient training sessions and measure outcomes all in one consolidated platform.
Missouri Gov. Mike Parson’s plan to release bond funds to support bridge repair across the state comes as welcome news to researchers at Missouri S&T, home to a federal initiative to develop new robotic tools to inspect and preserve bridges and other infrastructure.Missouri S&T researchers are in the midst of a five-year effort to develop new technologies to inspect and maintain bridges and portions of highway.
According to MSU research, the terror attacks we don't often see on the news – cyberattacks by far-left extremists – are causing more widespread destruction than we know.
Carbon dioxide emissions can be captured and securely stored in underground rocks, even if geological faults are present, research has confirmed.
Static electricity is one of the most common, yet poorly understand, forms of power generation. A new study suggests the cause of this hair-raising phenomenon is tiny structural changes that occur at the surface of materials when they come into contact with each other. The finding could someday help technology companies create more sustainable and longer-lasting power sources for small electronic devices.
How do we prepare the next generation of scientists and engineers for future success when the problems they will solve have yet to be defined? Meridith Bruozas, the Education Programs and Outreach Division Director at the Department of Energy’s (DOE) Argonne National Laboratory, recently responded to this question with a Keynote presentation at TechCon: Technology and Financial Issues for the 21st Century. The talk, titled “Preparing the next generation for a future unknown”, addressed how Argonne is connecting today’s students to the laboratory’s world-class research and preparing them for futures in STEM.
If ship hulls were coated with special high-tech air trapping materials, up to one percent of global CO2 emissions could be avoided. This is the conclusion reached by scientists from the University of Bonn together with colleagues from St. Augustin and Rostock in a recent study. According to the study, ships could save up to 20 percent of fuel as a result of reduced drag. If so-called antifouling effects are also considered, such as the reduced growth of organisms on the hull, the reduction can even be doubled. The study has now been published in the journal Philosophical Transactions A.
Immersive virtual reality (VR) can be remarkably lifelike, but new UBC research has found a yawning gap between how people respond psychologically in VR and how they respond in real life.
Profiled is Jon Poplawsky, a materials scientist at Oak Ridge National Laboratory who develops and links advanced characterization techniques that improve our ability to see and understand atomic-scale features of diverse materials for energy and information technologies.
On the second floor of the J. Erik Jonsson Engineering Center in the heart of the Rensselaer Polytechnic Institute campus, a room has been created that – not unlike Hogwarts’ Room of Requirement – has the potential to be almost anything.
Five college teams came to Brookhaven to participate in the annual U.S. Department of Energy cyberdefense competition hosted in December 2018.
The SLAS Technology Ten annually showcases ten individual articles that stand out as the most innovative scientific achievements published in SLAS Technology in the past 12 months.
The Donald Danforth Plant Science Center and TechAccel are launching RNAissance Ag LLC, a new company that holds the exclusive license to RNA-interference technology developed at the Danforth Center. The new company will use the proprietary technology in the development of sprayable insect control measures.
Columbia Engineers have created a robot that learns what it is, with zero prior knowledge of physics, geometry, or motor dynamics. Initially the robot has no clue what its shape is. After a brief period of “babbling,” and within about a day of intensive computing, the robot creates a self-simulation, which it can then use to contemplate and adapt to different situations, handling new tasks as well as detecting and repairing damage in its body.
Here's a science enigma: Try to explain where the neat, even DNA/RNA helix came from. Ha! Easy one! It probably spun around itself long before first life evolved like it did in this lab. In fact, the twist could have helped select the components of RNA, not the other way around.
Irvine, Calif., Jan. 23, 2019 — Online publishing platforms and digital media can provide opportunities for nonmainstream groups to push back against and offer alternatives to the simplistic stereotypes presented in literature and popular culture. A study led by the University of California, Irvine focused on Harry Potter fan fiction and discovered that autistic people, family members, teachers and advocates cast autistic characters in their stories in diverse ways that challenge typical representations.
Using active genetics technology, UC San Diego biologists have developed the world’s first CRISPR/Cas9-based approach to control genetic inheritance in a mammal. The achievement in mice lays the groundwork for further advances based on this technology, including biomedical research on human disease.
In an effort to modernize and reimagine the United States' power grid, Penn State researchers have qualified for a highly selective, innovative competition sponsored by the U.S. Department of Energy.
Engineers at the University of Maryland (UMD) have created the first 3D-printed fluid circuit element so tiny that 10 could rest on the width of a human hair. The diode ensures fluids move in only a single direction--a critical feature for products like implantable devices that release therapies directly into the body.
The question of how quickly the universe is expanding has been bugging astronomers for almost a century. Different studies keep coming up with different answers -- which has some researchers wondering if they've overlooked a key mechanism in the machinery that drives the cosmos
Cynthia Keppel, leader of Jefferson Lab’s Halls A&C, has been honored with the APS 2019 Distinguished Lectureship Award on the Applications of Physics.
Patients and providers now have instant access to Tennessee’s only full-service transplant center on their smartphones and mobile devices.
Thanks to Ivy League ingenuity – and engineering – there’s a good chance “L-pocalypse” won’t befall the Big Apple. What began with a few questions resulted in an entirely new plan to avert the shutdown, and perhaps a new model for how major infrastructure projects can be evaluated.
How can you recycle the world's stockpiles of treated sewage sludge and boost sustainability in the construction industry, all at the same time? Turn those biosolids into bricks. Biosolids are a by-product of the wastewater treatment process that can be used as fertiliser, in land rehabilitation or as a construction material.
Osaka, Japan - If you've ever camped by a pond, you know frogs make a racket at night; but what you might not know is how functional and regulated their choruses really are. Frogs communicate with sound, and amid their ruckus is an internally orchestrated system that lets information get through more clearly while also permitting collective choruses and time to rest. Researchers from Osaka University and University of Tsukuba sought to leverage this amphibious acumen for mathematical and technological aims.
An Iowa State researcher has developed a cloaking technology that makes it possible to use location-based apps and services on mobile devices while keeping your privacy under control.
ClassDojo is one of the most popular education apps in the world. Its company estimates it is used by millions of teachers and children across 180 countries. But beneath its friendly exterior lie disturbing implications.
Researchers from the National University of Singapore (NUS) are making the journey of muscle rehabilitation much easier for patients with an ingenious medical device capable of regenerating muscles in a non-invasive and painless manner.
A study from the University of Vermont shows that if a person leaves a social media platform--or never joined--the online posts and words of their friends still provide about 95% of the predictive accuracy of a person's future activities--even without any of that person's data.
From multiple wins at DEFCON to award-winning papers and supervision of an award-winning cybersecurity student club, Oregon State University's Yeongjin Jang has been a boon to the university's efforts to boost its cybersecurity program.
A new award-winning magnet technology invented at the U.S. Department of Energy’s Argonne National Laboratory could help drive the nation’s transition from gas-powered vehicles to electric and hybrid power more rapidly, at lower cost, and in a more environmentally friendly way.
Recap of program featuring biotech startups building platforms in the fight against the opioid crisis.
Columbus State University was recently approved by the Board of Regents to offer a new nexus degree in cybersecurity in financial technology. Available to students beginning fall 2019, pending approval by the Southern Association of Colleges and Schools Commission on Colleges, the 60-credit-hour degree will emphasize hands-on learning to prepare students for a career in cybersecurity.
Molecules are usually formed in reaction vessels or laboratory flasks. An Empa research team has now succeeded in producing molecules between two microscopically small, movable gold tips – in a sense as a "hand-knitted" unique specimen. The properties of the molecules can be monitored in real time while they are being produced. The research results have just been published in Nature Communications.
To address the unique challenges that emergency evacuation scenarios present, Alan Wagner, assistant professor of aerospace engineering at Penn State, and a team of researchers propose to use a coordinated collection of mobile robots as authority figures to direct evacuees for rapid, orderly and safe evacuations, thanks to a $1.5M National Science Foundation grant.
An automated text messaging system increases patient engagement with home-based exercise and promotes faster recovery after total knee or hip replacement surgery, reports a study in the January 16, 2019 issue of The Journal of Bone & Joint Surgery. The journal is published in the Lippincott portfolio in partnership with Wolters Kluwer.
Pennington, NJ – (January 16, 2019) – The Electrochemical Society has appointed Krishnan Rajeshwar as the new editor of the ECS Journal of Solid State Science and Technology for a three-year term. Launched in 2012, the ECS Journal of Solid State Science and Technology focuses on fundamental and applied areas of solid state science and technology including experimental and theoretical aspects of the chemistry and physics of materials and devices. Rajeshwar's contributions, such as these, continue to help advance the state of the electrochemical and solid state science field.
Bioengineers have developed implantable and wearable nanogenerators that create electrical pulses when compressed by body motions. The pulses controlled weight gain and enhanced healing of skin wounds in rat models.
Argonne scientists from multiple disciplines are leveraging their collective expertise and world-class facilities to solve complex grid-related problems.
A powerful new technique combines expansion microscopy with lattice light-sheet microscopy for nanoscale imaging of fly and mouse neuronal circuits and their molecular constituents that’s roughly 1,000 times faster than other methods.
Organizations looking to benefit from the artificial intelligence (AI) revolution should be cautious about putting all their eggs in one basket, a study from the University of Waterloo has found.
An invited article in the December online edition of the journal 2D Materials provides a roadmap for the synthesis of electronic-grade two-dimensional materials for future electronic and sensing applications.
Controlled light can help regulate human health and productivity by eliciting various hormonal responses. Tailored LED wavelengths and intensities also can efficiently stimulate plant growth, alter their shapes and increase their nutritional value
A new collection of reviews and original research illustrate how new technologies and advanced cell culture are accelerating basic research, drug discovery and drug development.
Researchers at Missouri University of Science and Technology have discovered that two-dimensional (2-D) titanium carbide materials, or MXenes, can react with water with no other oxidizers involved. Their finding may lead to new insights into the unusual chemistry of MXenes and consequently, have impacts on MXenes’ storage and device manufacturing.
New AI developed at the University of Surrey could identify and help reduce one of the top causes of hospitalisation for people living with dementia: urinary tract infections (UTI).
Idling in a long highway line of slowed or stopped traffic on a busy highway can be more than an inconvenience for drivers and highway safety officers.