Scientists here have developed new dye-sensitized solar cells (DSSCs) that get their pink color from a mixture of red dye and white metal oxide powder in materials that capture light.

Currently, the best of these new pink materials convert light to electricity with only half the efficiency of commercially-available silicon-based solar cells -- but they do so at only one quarter of the cost, said Yiying Wu, assistant professor of chemistry at Ohio State.

And Wu is hoping for even better.

"We believe that one day, DSSC efficiency can reach levels comparable to any solar cell," he said. "The major advantage of DSSCs is that the cost is low. That is why DSSCs are so interesting to us, and so important."

Limiting and labeling trans fats in food is not enough, according to Walter Willett, an epidemiologist and nutrition professor at the Harvard School of Public Health, who argues to food manufacturers that they should be banned altogether.

Willett was among dozens of speakers on the opening day of the Institute of Food Technologists Annual Meeting & Food Expo here, the world’s largest annual food science forum and exposition.

While some trans fats occur naturally in foods, most are the result of cooking or baking with hydrogenated oils. Those oils provide creamy textures that are enjoyable to eat and affect positively the shelf life and stability of many foods like baked goods.

Researchers at Johns Hopkins have found a way to overcome a major stumbling block to developing successful insulin-cell transplants for people with type I diabetes.

Traditional transplant of the cells, accompanied by necessary immune-suppressing drugs, has had highly variable results, from well- to poorly tolerated. Part of the problem, the Hopkins researchers say, is an inability to track the cells—so-called pancreatic beta cells—once they’re inside the body.

Now a new technique encapsulates the insulin-producing cells in magnetic capsules, using an FDA-approved iron compound with an off-label use, which can be tracked by magnetic resonance imaging (MRI).

In order for the best baseball team to win, the National League would have to extend its season to 256 games say a pair of physicists at the Los Alamos national Laboratory in New Mexico.

Because of randomness, there's always a chance a bad team can win so mathematically a certain outcome for the best team requires a number of games equal to roughly the cube of the number of teams. In the National League, with its 16 teams, that means 4096 regular season games or 256 per season, almost 100 more than the 162 games they play now.

Scientists at the U.S. Department of Energy's Argonne National Laboratory have identified a new technique for cleansing contaminated water and potentially purifying hydrogen for use in fuel cells, thanks to the discovery of a innovative type of porous material.

Argonne materials scientists Peter Chupas and Mercouri Kanatzidis, along with colleagues at Northwestern and Michigan State universities, created and characterized porous semiconducting aerogels at Argonne's Advanced Photon Source (APS). The researchers then submerged a fraction of a gram of the aerogel in a solution of mercury-contaminated water and found that the gel removed more than 99.99 percent of the heavy metal.

Insulin-dependent, or Type 1, diabetes is an autoimmune disease in which the body’s immune system attacks and destroys insulin and insulin-producing beta cells in the pancreas. Insulin is a hormone that is needed to convert sugar, starches and other food into energy.

Insulin typically is given through shots and not pills so the hormone can go straight into the bloodstream but a new method by Professor Henry Daniell’s research team may change that.

Their work involved genetically engineering tobacco plants with the insulin gene. They administered the freeze-dried plant cells to five-week-old diabetic mice in powder form for eight weeks. By the end of the study, the diabetic mice had normal blood and urine sugar levels, and their cells were producing normal levels of insulin.

About twice as many Atlantic hurricanes form each year on average than a century ago, according to a new statistical analysis of hurricanes and tropical storms in the north Atlantic. The study concludes that warmer sea surface temperatures (SSTs) and altered wind patterns associated with global climate change are fueling much of the increase.

"These numbers are a strong indication that climate change is a major factor in the increasing number of Atlantic hurricanes," says Greg Holland of the National Center for Atmospheric Research (NCAR).

The analysis identifies three periods since 1900, separated by sharp transitions, during which the average number of hurricanes and tropical storms increased dramatically and then remained elevated and relatively steady.

Decades ago a gene was discovered that was linked to the susceptibility of multiple scleroris (MS). Since then, the search has been on to uncover the puzzling mix of genes, environment and immunity that could aid in the treatment of the 350,000 people just in America who have the disease.

A pair of large-scale genetic studies supported by the National Institutes of Health has revealed two genes that influence the risk of getting MS.

"These studies describe the first genes conclusively linked to MS in more than 20 years," said Ursula Utz, Ph.D., a program director at the National Institute of Neurological Disorders and Stroke (NINDS), a part of NIH.

An enzyme found naturally in the blood could help protect soldiers against the effects of the deadly nerve agent sarin.

The US military is funding a three-year study to evaluate the effectiveness of the enzyme, known as GOT, in protecting animals against the damaging cognitive and coordination problems resulting from exposure to the organophosphorus nerve agent.

The study will be carried out by Israeli firm Braintact, and follows earlier unpublished work with rats which showed the enzyme successfully protected the animals against neurological problems caused by exposure to paraoxon, a model compound for nerve agents such as sarin, soman and VX.

Autopsies usually point to a cause of death but now a study of brain tissue collected from people who committed suicide may explain an underlying cause of major depression and suicide.

The international research group, led by Dr. Michael O. Poulter of Robarts Research Institute at The University of Western Ontario and Dr. Hymie Anisman of the Neuroscience Research Institute at Carleton University, says that proteins that modify DNA directly are more highly expressed in the brains of people who commit suicide, they write in Biological Psychiatry.

These proteins are involved in chemically modifying DNA in a process called epigenomic regulation.