Cheaper, More Reliable Solar Power with New World Record for Polymer Solar Cells

Credit: Stefan Jerrevång/Linkoping university
Polymer solar cells can be even cheaper and more reliable thanks to a breakthrough by scientists at Linköping University and the Chinese Academy of Sciences (CAS). This work is about avoiding costly and unstable fullerenes. Polymer solar cells have in recent years emerged as a low cost alternative to silicon solar cells. In order to obtain high efficiency, fullerenes are usually required in polymer solar cells to separate charge carriers. However, fullerenes are unstable under illumination, and form large crystals at high temperatures. Polymer solar cells manufactured using low-cost roll-to-roll printing technology, demonstrated here by professors Olle Inganäs (right) and Shimelis Admassie. Now, a team of chemists led by Professor Jianhui Hou at the CAS set a new world record for fullerene-free polymer solar cells by developing a unique combination of a polymer called PBDB-T and a small molecule called ITIC. With this combination, the sun's energy is converted with an efficiency of 11%, a value that strikes most solar cells with fullerenes, and all without fullerenes. Feng Gao, together with his colleagues Olle Inganäs and Deping Qian at Linköping University, have characterized the loss spectroscopy of photovoltage (Voc), a key figure for solar cells, and proposed approaches to further improving the device performance. The two research groups are now presenting their results in the high-profile journal Advanced Materials. -We have demonstrated that it is possible to achieve a high efficiency without using fullerene, and that such solar cells are also highly stable to heat. Because solar cells are working under constant solar radiation, good thermal stability is very important, said Feng Gao, a physicist at the Department of Physics, Chemistry and Biology, Linköping University. -The combination of high efficiency and good thermal stability suggest that polymer solar cells, which can be easily manufactured using low-cost roll-to-roll printing technology, now come a step closer to commercialization, said Feng Gao. 
  • Contacts and sources: Feng Gao, Linköping University
  • Citation: Fullerene-free polymer solar cells with over 11% efficiency and excellent thermal stability, by Wenchao Zhao, Deping Qian, Shaoqing Zhang, Sunsun Li, Olle Inganäs, Feng Gao and Jianhui Hou. Advanced Materials 2016. DOI: 10.1002/adma.201600281. Source:http://www.ineffableisland.com/
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Study of psychosis risk and brain to track effects of Omega-3 pills

The study will use a specific combination of omega-3 fatty acids in its supplements, unlike over-the-counter fish oil pills, which are unregulated.
By Carol Clark: The first major study on the biological effects of omega-3 fatty acids on the human brain is focusing on the role that this natural substance, primarily found in fish oil, may play in fighting psychosis. Emory University recently launched the first phase of the double-blind, clinical trial of a specific combination of omega-3 fatty acid supplements, which will ultimately involve about 160 participants, and researchers from eight universities. “This will be the first study to conduct an extensive assessment of changes in the brain associated with omega-3 fatty acids,” says lead investigator Elaine Walker, professor of psychology and neuroscience at Emory. “We are most interested in the question of how to potentially prevent the onset of psychosis.” Non-invasive techniques will be used to record both the density of different regions of the brain, and the robustness of neural connectivity, to compare the effects of a placebo and omega-3 fatty acids on teens and young adults who may be at risk for psychosis. Omega-3 fatty acids cannot be made by the human body, but are necessary for normal metabolism. Common sources include fish oils, algae and flaxseed oil. The omega-3 study, expected to last at least a year, is part of a larger, comprehensive, project to investigate the origins and prevention of psychosis, headed by Walker at Emory and funded by a grant from the National Institutes of Mental Health (NIMH).  Watch a 2010 video, below, of Elaine Walker explaining the facts, and myths, of schizophrenia:about   Schizophrenia, the most extreme psychosis, affects 1 percent  of the population. The typical onset of schizophrenia and other psychotic disorders is about 21 years of age, with warning signs beginning, on average, around age 17. Studies have shown that about 30 to 40 percent of teenagers showing warning signs will develop schizophrenia or another psychotic disorder. Another 25 percent of these at-risk teens continue to experience mild symptoms without getting worse, while the remaining 35 percent get better as they enter adulthood. While anti-psychotic drugs can be effective, they also have side effects, so physicians are hesitant to recommend them until someone enters the clinical stages of the illness. The causes of psychosis are unclear, but one of the dominant theories is that changes in the brain adversely affect the connections among neurons as psychosis is emerging. Animal studies have demonstrated that omega-3 has a protective effect on these connections. And some people with schizophrenia tend to have low levels of omega-3 fatty acids. These factors led the University of Vienna, Austria, to conduct a behavioral study for the effects of an omega-3 formulation on teenagers at risk for psychosis. The results, published in 2010, found that 11 out of 40 high-risk teens who had taken a placebo for 12 weeks developed clinical psychosis within a year, but only two out of 41 high-risk teens who took omega 3 succumbed to the disorder. “The magnitude of the effect they reported, 22.6 percent, was surprising,” Walker says. “And given the devastating impact of this illness, anything that shows that
The supplements used in the NIMH study will contain 1,100 milligrams of omega-3 fatty acid, about the same amount in four ounces of wild salmon.
kind of promise is worth pursuing.” The NIMH study will combine behavioral and cognitive measurements of participants, along with the biological measurements. Half of the participants will take a placebo, while the other half will take omega-3 pills containing 1,100 milligrams of omega-3 fatty acid, about the same amount in four ounces of wild salmon. Functional magnetic resonance imaging (fMRI) will be used to record before-and-after images of the brain. The resulting data will allow the researchers to compare any changes in density in different brain regions. In addition, diffusion tensor imaging (DTI) will record the activity of the connections between the various brain regions, to compare any changes in the robustness of this circuitry. Participants in the study will also receive psychological counseling. “Young people showing these risk signs are typically in distress,” Walker says. “This study is an opportunity to get some support and, potentially, preventive intervention.” Walker, who has studied psychosis for more than 30 years, cautions that, no matter what the results of the study, no panacea is in the offing. “Psychosis is a class of disorders,” she explains. “As is the case with cancer, not all medicines and treatments work for all persons and types of cancer. Treatments have to be tailored.” The NIMH has made learning the neural mechanisms involved in psychosis a priority, due to the terrible economic and social toll of the illness. “Most psychotic disorders end up becoming chronic illnesses,” Walker says. “If we could prevent 20 percent of the cases, that would be great. If we could prevent 50 percent, that would be an amazing achievement.” Images: iStockPhoto.com Source: eScienceCommons
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