A new stem cell discovery might one day lead to a more streamlined process for obtaining stem cells, which in turn could be used in the development of replacement tissue for failing body parts, according to Univ. of California, San Francisco scientists who reported the findings in Cell.
Reactions among minerals and organic compounds in hydrothermal environments are critical...
A powerful new tool that can help advance the genetic engineering of “fuel” crops for clean,...
Physicists have identified the “quantum glue” that underlies a promising type of superconductivity—a crucial step towards the creation of energy superhighways that conduct electricity without current loss. The research, published online in the Proceedings of the National Academy of Sciences, is a collaboration between the Univ. of Illinois at Chicago, Cornell Univ. and Brookhaven National Laboratory.
Some chemical conversions are harder than others. Refining natural gas into an easy-to-transport, easy-to-store liquid alcohol has so far been a logistic and economic challenge. But now, a new material, designed and patented by researchers at Lawrence Berkeley National Laboratory, is making this process a little easier.
A team of international researchers has discovered a new type of cool burning flames that could lead to cleaner, more efficient engines for cars. The discovery was made during a series of experiments on the International Space Station by a team led by Forman Williams, a professor of mechanical and aerospace engineering at the Univ. of California, San Diego.
Companies often blend old products to give you something new. This summer, AsusTek Computer Inc. claims you don't need both a phone and a tablet—as long as you get its new PadFone X. The PadFone works like any other phone and has a screen that measures 5 in diagonally.
With the help of ultracold quantum gas, physicists have achieved a 20-fold amplification of single-photon signals, a step that could aid all-optical data processing efforts. The breakthrough was made with the invention of a new type of optical transistor build from a cloud of rubidium atoms, held just above absolute zero, that is transparent to certain wavelengths of light.
Scientists in the U.K. recently published work that describes how graphene can be wrapped around a silicon wire, or waveguide, and modify the transmission of light through it. These waveguide loops, called “racetrack resonators” because of their shape, could help form a device architecture that would make graphene biochemical sensors a reality.
A wildly bouncing tennis ball that travels a millions times the distance of its own size would be difficult to measure. But attaching the same ball to a measuring device would eliminate the “noise”. Researchers in Israel recently used a similar trick to measure the interaction between the smallest possible magnets (two electrons) after neutralizing magnetic noise that was a million times stronger than the signal they needed to detect.
The U.S. Geological Survey plans this summer and next to map the outer limits of the continental shelf, and also study underwater landslides that would help predict where and when tsunamis might occur. But environmentalists say it could cause the same type of marine life damage they fought unsuccessfully to prevent this month off the coast of New Jersey.
To support the fair sale of gaseous hydrogen as a vehicle fuel, researchers at NIST have developed a prototype field test standard to test the accuracy of hydrogen fuel dispensers. Once the standard is field tested, it will serve as a model for constructing similar devices for state weights and measures inspectors to use.
Lithium (Li)-ion batteries power almost all of the portable electronic devices that we use every day, including smartphones, cameras, toys and even electric cars. Researchers across the globe are working to find materials that will lead to safe, cheap, long-lasting and powerful Li-ion batteries.
In findings that help astrophysicists understand our corner of the galaxy, an international research team has shown that the soft x-ray glow blanketing the sky comes from both inside and outside the solar system. The source of this "diffuse x-ray background" has been debated for the past 50 years.
A new method of building materials using light, developed by researchers at the Univ. of Cambridge, could one day enable technologies that are often considered the realm of science fiction. Although cloaked starships won’t be a reality for quite some time, the technique which researchers have developed for constructing materials with building blocks a few nanometers across can be used to control the way that light flies through them.
The magnets cluttering the face of your refrigerator may one day be used as cooling agents, according to a new theory. The theory describes the motion of magnons. In addition to magnetic moments, magnons also conduct heat; from their equations, the researchers found that when exposed to a magnetic field gradient, magnons may be driven to move from one end of a magnet to another, carrying heat with them and producing a cooling effect.
Using a new type of large-scale magnet conductor, scientists in Japan have recently achieved an electrical current of 100,000 A, a world record. The conductor, which was built using yttrium-based high-temperature superconducting tapes for high mechanical strength, is a prototype for using in a future fusion reactor.
A novel combination of microscopy and data processing has given researchers at Oak Ridge National Laboratory (ORNL) an unprecedented look at the surface of a material known for its unusual physical and electrochemical properties. The research team led by ORNL’s Zheng Gai examined how oxygen affects the surface of a perovskite manganite, a complex material that exhibits dramatic magnetic and electronic behavior.
It’s an all-too familiar scenario for many people. You sprain your ankle or twist your knee. If you’re an adult, the initial pain is followed by a long road of recovery, with no promise that the torn ligament or tendon will ever regain its full strength. That’s because tendon and ligament cells in adults produce little collagen, the fibrous protein that is used to build new tendon and ligament tissue.
Much artificial intelligence research addresses the problem of making predictions based on large data sets. An obvious example is the recommendation engines at retail sites like Amazon and Netflix. But some types of data are harder to collect than online click histories. And in other applications there may just not be enough time to crunch all the available data.
Virologists and biologists in California have identified a highly abundant, never-before-described virus that could play a major role in obesity, diabetes. The virus, named crAssphage, has about 10 times as many base pairs of DNA as HIV and infects one of the most common types of gut bacteria. This phylum of bacteria is thought to be connected with obesity, diabetes and other gut-related diseases.
A new study has shown that it is possible to predict long-term cancer risk from a chemical exposure by measuring the short-term effects of that same exposure. The findings could make it possible to develop simpler and cheaper tests to screen chemicals for their potential cancer causing risk.
According to recently published research, scientists in the U.K. say that just 8.2% of human DNA is likely to be doing something important, or “functional”. This figure is very different from one given in 2012, when some scientists involved in the ENCODE (Encyclopedia of DNA Elements) project stated that 80% of our genome has some biochemical function.
The primordial soup theory suggests that life began in a pond or ocean as a result of the combination of metals, gases from the atmosphere and some form of energy, such as a lightning strike, to make the building blocks of proteins which would then evolve into all species. New research shows how mitochondria in cells continue to perform similar reactions in our bodies today.
A new method that uses x-rays for the rapid identification of substances present in an indeterminate powder has been developed by a scientist in Denmark. The new technique has the capacity to recognize advanced biological molecules such as proteins, which makes it potentially important in both food production and the pharmaceutical industry, where it opens up new opportunities for the quality assurance of protein-based medicines.
According to recent research that marks the first time investigators have taken a microbial census of a sake brewery, the microbial populations found on surfaces in the facility resemble those found in the product, creating the final flavor. This means a sake brewery has its own microbial terroir.
When a foreign material like a medical device or surgical implant is put inside the human body, the body usually reacts negatively. For the first time ever, researchers at Northwestern Univ. have created a biodegradable biomaterial that is inherently antioxidant. The material can be used to create elastomers, liquids that turn into gels, or solids for building devices that are more compatible with cells and tissues.
Stanford Univ. biology Prof. Rodolfo Dirzo and his colleagues are warning that "defaunation" could have harmful downstream effects on human health. The planet's current biodiversity, the product of 3.5 billion years of evolutionary trial and error, is the highest in the history of life. But, Dirzo says, this may be reaching a tipping point.
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