Tech

Researchers from North Carolina State University and the University of Oregon have found a way to exploit cloud-based Web browsers, using them to perform large-scale computing tasks anonymously. The finding has potential ramifications for the security of "cloud browser" services.

Imagine printing a 3-D object as easily as a typed document. Lose a button? Print one. Need a new coffee cup? Print one. While the reality of printing any object on demand may lie in the future, the technology necessary to do it has been available for decades. And soil scientists are now taking advantage of its possibilities.

Scientists at the U.S. Department of Energy's National Renewable Energy Laboratory (NREL) and the BioEnergy Science Center (BESC) combined different microscopic imaging methods to gain a greater understanding of the relationships between biomass cell wall structure and enzyme digestibility, a breakthrough that could lead to optimizing sugar yields and lowering the costs of making biofuels.

Coasts and estuaries are among the most rapidly developing areas on Earth. Night-time satellite images of the planet show that except Antarctica, continents are ringed with halos of brightly-lit human development. But coasts are also key wildlife sites. Every year, millions of waterbirds arrive from the Arctic to overwinter on UK coasts, yet scientists remain largely in the dark about how these birds respond to the bright lights of coastal cities and industry.

Women who develop pre-eclampsia during their first pregnancy (known as preterm pre-eclampsia) - and who don't go on to have any more children – are at greater risk of dying from heart disease in later life than women who have subsequent children, finds a study published on bmj.com today.

Women who develop the condition only in the final weeks of pregnancy (known as term pre-eclampsia) are at less risk.

By using common materials found pretty much anywhere there is dirt, a team of Michigan State University researchers have developed a new thermoelectric material.

This is important, they said, because the vast majority of heat that is generated from, for example, a car engine, is lost through the tail pipe. It's the thermoelectric material's job to take that heat and turn it into something useful, like electricity.

Boulder, Colorado, USA - Social and physical scientists have long been concerned about the effects of humans on Earth's surface -- in part through deforestation, encroachment of urban areas onto traditionally agricultural lands, and erosion of soils -- and the implications these changes have on Earth's ability to provide for an ever-growing population. The December 2012 GSA Today science article presents examples of land transformation by humans and documents some of the effects of these changes.

Measles vaccine given with painless and easy-to-administer microneedle patches can immunize against measles at least as well as vaccine given with conventional hypodermic needles, according to research done by the Georgia Institute of Technology and the Centers for Disease Control and Prevention (CDC).

Researchers at the University of Southampton are to undertake a new stage of a study aimed at improving the health and mobility of those suffering from the common complaint of 'walking on marbles' associated with Rheumatoid Arthritis (RA) in the feet.

RA is the second most common form of arthritis in the UK, affecting almost 600,000 people, which results in the destruction of joints around the body caused by inflammation.

Water repelling molecules are said to be hydrophobic. The hydration – or formation of water interfaces around hydrophobic molecules – is important for many biological processes: protein folding, membrane formation, transport of proteins across an interface, the transmission of action potentials across membranes. It is involved as well in the process of creating mayonnaise, or in the fact that you can get rid of fat with soap. Hydrophobic interfaces although long studied, are poorly understood.

Microvesicles are smallest cell elements which are present in all body fluids and are different, depending on whether a person is healthy or sick. This could contribute to detecting numerous diseases, such as, e.g., carcinomas, at an early stage, and to treating them more efficiently. The problem is that the diameter of the relevant microvesicles generally lies below 100 nm, which makes them technically detectable, but their exact size and concentration hardly possible to determine. A new device is now to provide the metrological basis for these promising biomarkers.

SAN DIEGO, Calif. (November 26, 2012) The Algae Biomass Organization, the trade association for the U.S. algae industry today hailed the findings of a University of California at San Diego study that concludes, for the first time, that marine (saltwater) algae can be just as capable as freshwater algae in producing biofuels. The research is documented in a peer-reviewed paper published online in the current issue of the scientific journal Algal Research.

The wild and dramatic cascade of ice into the ocean from Alaska's Columbia Glacier, an iconic glacier featured in the documentary "Chasing Ice" and one of the fastest moving glaciers in the world, will cease around 2020, according to a study by the University of Colorado Boulder.

PHILADELPHIA — Electronic circuits are typically integrated in rigid silicon wafers, but flexibility opens up a wide range of applications. In a world where electronics are becoming more pervasive, flexibility is a highly desirable trait, but finding materials with the right mix of performance and manufacturing cost remains a challenge.

Now a team of researchers from the University of Pennsylvania has shown that nanoscale particles, or nanocrystals, of the semiconductor cadmium selenide can be "printed" or "coated" on flexible plastics to form high-performance electronics.

Soil respiration is a critical hydrological process that plays an important role in the terrestrial carbon cycle. Associate Professor CHEN ShuTao and his colleagues from the School of Environmental Science and Engineering at Nanjing University of Information Science and Technology set out to estimate annual soil respiration from terrestrial ecosystems in China. They have tabulated published estimates of annual soil respiration and developed an empirically based, semi-mechanistic model that includes climate and soil properties.