Tech
Tokyo, Japan - Researchers at the Institute of Industrial Science, a part of The University of Tokyo, have developed a new method of producing concrete without cement. They have directly bonded sand particles via a simple reaction in alcohol with a catalyst. This may help both to slash carbon emissions and to construct buildings and structures in desert regions, even on the Moon or Mars.
TMDs vdW heterostructures generally possess a type-II band alignment which facilitates the formation of interlayer excitons between the constituent monolayers. Manipulation of the interlayer excitons in TMDs vdW heterostructures hold great promise for developing excitonic integrated circuits that serve as the counterpart of electronic integrated circuits, which allows the photons and excitons transforming between each other and thus bridges the optical communication and signal processing at the integrated circuit.
The Early Cretaceous Jehol Biota, renowned for its exceptionally well preserved volcanic-influenced ecosystem, was buried in lacustrine and occasionally fluvial sediments in northern Hebei and western Liaoning, China. It includes large amount of evolutionarily significant taxonomy, e.g.
In Austria, suicides have fallen by 4% since the start of the Covid-19 pandemic in March 2020, thereby consolidating the pre-2019 trend. An international study now shows that this pattern is similar to the global suicide trends during the initial phase of the coronavirus pandemic up until the end of October.
As the Rhode Island legislature considers designating the Northern Star Coral an official state emblem, researchers are finding that studying this local creature's recovery from a laboratory-induced stressor could help better understand how to protect endangered tropical corals.
A group of researchers led by Brazilians has used an innovative model to map gaps in the Amazon rainforest and identify factors that contribute to tree mortality. Water stress, soil fertility, and anthropic forest degradation have the most influence on gap dynamics in the world’s largest and most biodiverse tropical rainforest, according to an article on the study published in Scientific Reports.
Slow down. Baby on board.
So says UBC Okanagan researcher and Associate Professor of Mechanical Engineering Hadi Mohammadi. His new research, conducted in collaboration with Sharif University of Technology, determines that accelerating over speed bumps poses a danger for pregnant women and their fetuses.
"There is lots of research about the importance of movement for women during pregnancy," explains Mohammadi, who teaches in the School of Engineering. "Our latest research looked specifically at the impacts of sudden acceleration on a pregnant woman."
Behind every heartbeat and brain signal is a massive orchestra of electrical activity. While current electrophysiology observation techniques have been mostly limited to extracellular recordings, a forward-thinking group of researchers from Carnegie Mellon University and Istituto Italiano di Tecnologia has identified a flexible, low-cost, and biocompatible platform for enabling richer intracellular recordings.
Researchers from University of Hawaii and Cornell University published a new paper in the Journal of Marketing that explores the challenges and opportunities with nonprofit fundraising to provide organizations with strategies they can use to increase sustainable giving and profitability.
The study, forthcoming in the Journal of Marketing, is titled "Managing Members, Donors, and Member-Donors for Effective Non-profit Fundraising" and is authored by Sungjin Kim, Sachin Gupta, and Clarence Lee.
In the 1930s, English climatologist, Sir Gilbert Walker, successfully predicted Indian summer monsoon rainfall (ISMR) based on the relationship between Southern Oscillation and ISMR connected by what is later-called Walker circulation, which is regarded as the first achievement of modern climate prediction with a clear physical mechanism. The Southern Oscillation was also recognized as the atmospheric component of El Nino-Southern Oscillation (ENSO).
Ammonia (NH3) is among the most important chemicals produced by humans and has a promising future in sustainable energy applications besides being used in fertilizer production. Unfortunately, so far, the only realistic way that exists to produce ammonia at an industrial scale is through the Haber-Bosch process. This technique, discovered in the 19th century, is very energy-intensive and environmentally unfriendly; about 2% of the yearly global CO2 emissions come from Haber-Bosch processes.
WASHINGTON, April 13, 2021 -- From Los Angeles and the Lower East Side of New York City to Paris and Penang, street art by famous and not-so-famous artists adorns highways, roads and alleys. In addition to creating social statements, works of beauty and tourist attractions, street art sometimes attracts vandals who add their unwanted graffiti, which is hard to remove without destroying the underlying painting. Now, researchers report novel, environmentally friendly techniques that quickly and safely remove over-paintings on street art.
WASHINGTON, April 13, 2021 -- Studies show wearing masks and social distancing can contain the spread of the COVID-19 virus, but their combined effectiveness is not precisely known.
In Chaos, by AIP Publishing, researchers at New York University and Politecnico di Torino in Italy developed a network model to study the effects of these two measures on the spread of airborne diseases like COVID-19. The model shows viral outbreaks can be prevented if at least 60% of a population complies with both measures.
Huntington's disease is a genetic neurodegenerative disorder caused by mutations in the protein huntingtin and characterized by involuntary dance-like movements, severe behavioural changes and cognitive impairment. That neuronal traffic is impaired in this disease has been very well known for several years. But that this deranged trafficking could be ameliorated by increasing huntingtin methylation was not yet known. The findings emerged from an international research work coordinated by the University of Trento and published in Cell Reports.
Ammonoids, ancestors of today's octopus, squid and cuttlefish, bobbed and jetted their way through the oceans for around 340 million years beginning long before the age of the dinosaurs. If you look at the fossil shells of ammonoids over the course of that 340 million years, you'll notice something striking--as time goes on, the wavy lines inside the shell become more and more complex, eventually becoming frilled almost like the edges of kale leaves.