Florida State University will join the City of Tallahassee and other research partners on a U.S. Department of Energy project to improve integration of solar panels into electrical grids.
In extreme environments, even the most ordinary tasks can seem like unsurmountable challenges.
From working at the CIA to designing science facilities at Fermilab, Kate Sienkiewicz enjoys tackling complex problems. Currently, she oversees the team tasked with designing and building conventional facilities at the Long-Baseline Neutrino Facility near site for the international Deep Underground Neutrino Experiment — all with the overarching goal of understanding the universe.
The Faculty of Pharmaceutical Sciences researchers have successfully developed “PhytFoon”, a spray compound to deal with the PM 2.5 dust particles, which have become an annual plague that hinders the air quality and health of Thai people. The Dust Fighting Spray works by trapping the PM 2.5 dust particles suspended in the air and then weighing them down to the ground. The compound will be launched to the market by S.T. Protex Co. Ltd. at a conference on December 16, 2020, at the Renaissance Ratchaprasong Hotel. The company has received production rights from Chulalongkorn University to produce the PM 2.5 dust–fighting spray, “PhytFoon“.
As the inevitable growth of transport electrification continues, the types of batteries that will be used in such vehicles, their charging parameters, infrastructure and timeframes are key considerations that will speed up the transition to electrification.
Diamond Technologies is proud to announce the release of the new DE02 an industrial embedded barcode scan module for laboratory and medical devices as well as kiosks and automated machines.
Diamond Technologies is proud to announce the release of the new DE05 Industrial embedded barcode scan module for laboratory and medical devices as well as kiosks and automated machines.
Disinfection robots use UV light technology to kill germs in hospital rooms in the fight against COVID-19.
A new computational method from the McKelvey School of Engineering helps scientists validate the accuracy of microscopic images
Without drinkable water there is no life. Yet, nearly 1.1 billion people worldwide lack access to fresh water and another 2.4 billion suffer from diseases borne by unclean drinking water.
Increased depth range and the ability to explore 99% of the ocean floor, including the abyssal region—one of the least understood areas of the deep sea—are just some of the upgrades underway for the iconic human-occupied Vehicle (HOV) Alvin that were unveiled today at the American Geophysical Union’s (AGU) Fall Meeting 2020.
Researchers used the powerful X-rays of the Advanced Photon Source to see the preserved remains of an ancient Egyptian girl without disturbing the linen wrappings. The results of those tests point to a new way to study mummified specimens.
Face masks are helpful in preventing the spread of COVID-19, but researchers believe they can be made even more effective, something that has implications far beyond the current pandemic as masks could become a more commonly used public health intervention. Kourosh Shoele, an assistant professor in the Department of Mechanical Engineering at the FAMU-FSU College of Engineering, is part of a team that has received an $800,000 grant from the National Science Foundation to improve the efficacy of face masks as a defense against COVID-19 and other pathogens.
The Fourth Annual Impact.Engineered Awards Recognize the World’s ‘Pragmatic Optimists’ Improving Life in Underserved Communities
Engineers have created 3D printed patient-specific models of the aorta that can aid presurgical planning and improve outcomes of minimally invasive valve replacement.
To address PPE shortages during the pandemic, scientists at Berkeley Lab and UC Berkeley are developing a rechargeable, reusable, anti-COVID N95 mask and a 3D-printable silicon-cast mask mold.
Researchers from NUS have discovered a new strain of bacterium that can remove both nitrogen and phosphorous from sewage wastewater. Their findings offer a simpler, cheaper and greener method of wastewater treatment.
Countries around the world are way ahead of the United States in building "macro grids" capable of moving electricity across grids or regions, according to a new report by an Iowa State engineer and a former doctoral student. The report was sponsored and released by Americans for a Clean Energy Grid.
Two Cornell University researchers are looking into a new way to meet the growing demand for wireless services in the U.S.
As the COVID-19 pandemic continues to spread across the world, testing remains a key strategy for tracking and containing the virus.
The University of Delaware’s Eleftherios (Terry) Papoutsakis, Unidel Eugene Du Pont Chair of Chemical and Biomolecular Engineering, has been named a fellow of the National Academy of Inventors. It is the highest professional distinction accorded only to academic inventors.
A University of Washington-led team has developed Smellicopter: an autonomous drone that uses a live antenna from a moth to navigate toward smells. Smellicopter can also sense and avoid obstacles as it travels through the air.
When Materials Day 2020 was in the planning stages back in 2019, none of the Materials Research Institute (MRI) faculty and staff involved in developing Penn State’s marquee materials science and engineering event had any thoughts about doing any part of it virtually — until a pandemic hit.
The Materials Research Institute (MRI) has announced the three winners of the 2020 Rustum and Della Roy Innovation in Materials Research Award.
As the U.S. Army modernizes weapons systems and combat vehicles, researchers at Missouri S&T are developing lightweight and ultra-high-strength steels for next-generation combat vehicles that improve blast resistance and lower transportation costs.“Missouri S&T offers one of only seven metallurgical engineering programs in the U.
The COVID-19 Testing Impact Calculator is a free resource that shows how different approaches to testing and other mitigation measures, such as mask use, can curb the spread of the virus in any organization.
A multi-disciplinary, multi-institutional group has identified a solution to two of most pressing issues in a key fuel cell component — the catalyst used to drive the reactions.
In exploring ways to make it easier for users to control a prosthesis, researchers at the Johns Hopkins Applied Physics Laboratory (APL), in Laurel, Maryland, found that giving them sensory stimulation enhances the perception of their phantom hand and leads to more reliable and repeatable muscle movement signals, which are used to control a prosthetic arm. Their most recent findings, “Sensory Stimulation Enhances Phantom Limb Perception and Movement Decoding,” were published in the Journal of Neural Engineering.
During tornado formation, sound waves are produced at very low frequencies. And if your name is GLINDA, you do not need to be in Oz to hear them. Brandon White, at Oklahoma State University, is part of an engineering team that developed the Ground-based Local Infrasound Data Acquisition (GLINDA) system for the acoustic measurement of weather phenomena. He will discuss its design and capabilities at the 179th Meeting of the Acoustical Society of America, Dec. 7-10.
In research recently published in the AIAA Journal of Spacecraft and Rockets, a multidisciplinary team of engineers demonstrated how a series of lunar images can be used to infer the direction that a spacecraft is moving. This technique, sometimes called visual odometry, allows navigation information to be gathered even when a good map isn’t available. The goal is to allow spacecraft to more accurately target and land at a specific location on the moon without requiring a complete map of its surface.
UIC’s Energy Resources Center, UIC-ERC, will receive $1.8 million over a 3 year period, beginning in 2021.
A team of researchers has developed a flexible, rechargeable silver oxide-zinc battery with a five to 10 times greater areal energy density than state of the art. The battery also is easier to manufacture; while most flexible batteries need to be manufactured in sterile conditions, under vacuum, this one can be screen printed in normal lab conditions. The device can be used in flexible, stretchable electronics for wearables as well as soft robotics.
The New York Academy of Sciences is hosting two programs on Space Exploration this week, with topics including legal agreements for “off planet” governance, bioengineering to make space travel safer for astronauts, and questions of bio-ethics related to interplanetary travel.
As ORNL’s fuel properties technical lead for the U.S. Department of Energy’s Co-Optimization of Fuel and Engines, or Co-Optima, initiative, Jim Szybist has been on a quest for the past few years to identify the most significant indicators for predicting how a fuel will perform in engines designed for light-duty vehicles such as passenger cars and pickup trucks.
Berkeley Lab has a long history of participating in neutrino experiments and discoveries in locations ranging from a site 1.3 miles deep at a nickel mine in Ontario, Canada, to an underground research site near a nuclear power complex northeast of Hong Kong, and a neutrino observatory buried in ice near the South Pole.
A new paper in Science Advances describes for the first time how minerals come together at the molecular level to form bones and other hard tissues, like teeth and enamel.
The Shadow Robot Dexterous Hand is comparable to a human hand, reproducing all of its degrees of freedom
Engineers from NUS have devised a method to convert natural gas into a non-explosive solid form known as gas hydrates, which can be easily stored and transported. Using a novel, low-toxicity additive mixture, the conversion can be completed in just 15 minutes – the fastest time ever reported.
Columbia University researchers report that they have achieved plasmonically active graphene with record-high charge density without an external gate. They accomplished this by exploiting novel interlayer charge transfer with a two-dimensional electron-acceptor known as -RuCl3. “This work allows us to use graphene as a plasmonic material without metal gates or voltage sources, making it possible to create stand-alone graphene plasmonic structures for the first time,” said Mechanical Engineering Prof. James Hone.
Using public data from the entire 1,500-square-mile Los Angeles metropolitan area, PNNL researchers reduced the time needed to create a traffic congestion model by an order of magnitude, from hours to minutes.
Temporary glues may not steal headlines, but they can make everyday life easier.
Shape, color, and gloss.
When you press the dimpled circles on a fountain drink lid, they become either convex or concave. Materials or structures that have two stable states demonstrate a concept called bistability.
A new mathematical method developed by Cornell University researchers can inject fairness into the fraught process of political redistricting – and proves that it takes more than good intent to create a fair and representative district.
A recent study found that 2 to 3 gigawatts of electricity from winds off the coast of Oregon could be carried by current transmission lines. That’s enough to power up to 1 million homes—a significant number since there are 1.5 million homes in Oregon. But just as significantly, it also means that delivering that power would not require much additional investment in new transmission infrastructure.
A new device for faster testing of antibiotic-resistant bacteria has been developed by researchers at Binghamton University, State University of New York.
University of Warwick spin out company, Warwick Acoustics, have the ultimate gift for music enthusiasts seeking the most unforgettable and remarkable listening experience delivered in a one of kind, eye-catching, headphone system.
Nanoengineers at the University of California San Diego have developed new and improved probes, known as positive controls, that could make it easier to validate rapid, point-of-care diagnostic tests for COVID-19 across the globe. The advance could help expand testing to low-resource, underserved areas.
Focus on Innovative Technologies in Response to COVID-19
November is National Diabetes Month, a time when the nation comes together to shed light on one of the leading causes of death and disability among U.S. citizens. The University of Texas at El Paso (UTEP) is joining the fight against the disease through innovative research made possible through a recent $1.2M grant by the National Institutes of Health to advance understanding of a critical diabetic heart condition.
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