December 2006 |
Super-Stable Glass May Aid Drug Delivery Through the Body | |||
Researchers at the University of Wisconsin-Madison have developed a method for crafting some of the most stable glasses ever formed--materials that are strong and durable like crystal yet free of the confining properties of an ordered atomic skeleton. The new method deposits vaporized glass materials layer by layer onto a surface at an ideal temperature for yielding stable glasses. The research team is working toward possible medical applications for the new stable glass. By using their method as a general technique to control stability and solubility of molecular glass, it may be possible to develop drug compounds that were previously unusable. They may also be able to use stable glass films to extend the shelf life of existing medical tools like off-the-shelf blood and pregnancy testing kits. |
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So far, the team has successfully made stable glass with a non-steroidal anti-inflammatory called indomethacin. Encouraged by the results, they next plan to test more materials in the search for additional applications. For more on this approach to glass making, see NSF's "Melts in Your Body, Not in Your Hand." | |||
Show Me the Money! | |||
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Ever-increasing human mobility is a key cause of the geographic spread of modern epidemics. Bacteria and viruses are now transported across great distances and transmitted to people worldwide. In order to better understand and predict the spread of disease, NSF-supported researchers from the University of California at Santa Barbara, the Max Planck Institute for Dynamics and Self-Organization, and the University of Göttingen evaluated data from a popular U.S. Internet game in which participants register dollar bills and monitor their geographic circulation for fun. Like viruses, money is transported by people from place to place. Surprisingly, the scientists found that the human movements follow "universal scaling laws" and subsequently developed a mathematical theory describing the observed movements of travelers from just a few to thousands of kilometers. Because the mechanisms of disease transmission between humans are already well understood, the scientists can use the new theory to investigate new models which describe the global spread of disease much more realistically. | ||
The researchers "are optimistic that this will drastically improve predictions about the geographical spread of epidemics." For more on tracking money to understand disease spread, see the Max Planck Society's press release, "Trace the Money." | |||
Volcanic Blast Likely Killed and Preserved Juvenile Fossil Plesiosaur Found in Antarctica | |||
Amid 70-mile-per-hour winds and freezing Antarctic conditions, an American-Argentine research team recovered the well-preserved fossil skeleton of a juvenile plesiosaur--a marine reptile that swam the waters of the Southern Ocean roughly 70 million years ago. The fossilized remains represent one of the most-complete plesiosaur skeletons ever found and are thought to be the best-articulated fossil skeleton ever recovered from Antarctica. The creature would have inhabited Antarctic waters during a period when the Earth and its oceans were far warmer than they are today. The NSF and the Instituto Antártico Argentino funded the expedition. See the NSF press release for additional information about this finding. |
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Understanding the Building Blocks of Language and Thought | |||
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Plastic nesting cups and Legos™ are more than mere playthings for babies. They are powerful tools in developing an understanding of spatial concepts, according to Marianella Casasola, an associate professor of human development at Cornell University who has received NSF support early in her research career. She is documenting the connections between language input and human thought processes by studying the building blocks of language acquisition in infants. Her research shows that infants comprehend spatial relationships such as "in" and "on" through language input from caregivers and the babies' own play behaviors. "Some argue that spatial concepts shape language," said Casasola, who received an NSF Faculty Early Career Development program (CAREER) award and the Presidential Early Career Award for Science and Engineering (PECASE). "But our research suggests that it also may be the other way around. Our specific language can actually help us form particular spatial concepts." |
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See the NSF Discovery to learn more about the interesting results coming from this researcher's studies with babies of English-speaking and Korean-speaking parents. | |||
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A major research and development effort, NSF's
Math and Science Partnership (MSP) program, responds to concerns over the performance of the nation's
children in mathematics and science. Forty-eight partnerships and more
than 30 other tool-development and evaluation projects comprise NSF's
current MSP portfolio. NSF's research and development focused MSP complements programs
at the U.S. Department of Education that disseminate educational tools
and strategies to all 50 states via formula funds. |
Starting Small but 'Thinking Big' -- An Interview with NSF Program Director Art Hicks | ||||
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NSF: Please share your early experience with science and how it led to NSF. Hicks: In the late 1950's, Dr. Brown, a representative from the NSF, spoke to selected students at Jim Hill High School in Jackson, Mississippi, about careers in science and math. My classmates and I were energized by Dr. Brown and the seemingly countless number of opportunities in science and math fields that he mentioned. Many of us went on to earn graduate degrees in a number of fields including teacher education, mathematics, physics, engineering, and botany. NSF: What do you consider to be the biggest challenge to LSAMP? Hicks: The lack of employing best practices and strategies at the colleges and universities in the LSAMP portfolio remains a challenge, but significant progress is being made. Selected states and regions continue making major budgetary commitments to broaden participation. For example, South Carolina contributes greater than $600,000 annually to LSAMP and Alaska-Anchorage opened a $14-million science and engineering facility that houses the LSAMP program. |
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NSF: With your early research experience as an undergraduate, what advice would you give institutions to provide similar opportunities to their students? Hicks: Clearly, the integration of research and education looms large for most institutions given the traditional teaching and learning delivery system. An instructional model involving 'active learning' in contrast to the old straight lecture approach would likely reach the mark. The active learning model would provide small group interactions as a teaching-learning strategy in answering research questions. Institutions can change the instructional delivery system. | LSAMP has increased the quantity and quality of underrepresented minority students graduating with STEM degrees. Since its inception, minority enrollment in STEM majors at more than 450 LSAMP-participating institutions increased from 35,670 in 1991 to more than 205,000 in 2003. Annually, almost 25,000 baccalaureate degrees are conferred to minority students as a result of LSAMP alliances. |
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NSF: What advice would you give undergraduates choosing between graduate school and the workforce? Hicks: Regardless of the size of the institution they attend, I would encourage them to 'Think BIG, Sight Globally, Act Locally, and Work with a Passion!' The best and brightest students must look beyond their individual campuses and regions. They must incorporate a world view in the learning process, get involved in selected community service activities, and work with focused enthusiasm -- fire and fervor! |
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Plugging in to Science -- The Scientist (12/15/2006) -- A Web-based game now under development with funding from NSF is designed to help high-schoolers understand how policy decisions affect global warming by challenging them to make tough choices as a politician, a scientist, and an economist and then having them evaluate the results of their choices. Science Called Key to U.S. Competitiveness -- Chemical & Engineering News (12/05/06) -- Harvard University economics professor Richard Freeman, a scholar at the D.C.-based think tank Brookings Institution, in recommending a renewed commitment to technological innovation in the United States notes that while the number of college students graduating with bachelor's degrees in science and engineering has increased threefold in the United States since the early 1960s, the same number of NSF fellowships are still granted. Papers Urge Plans to Enhance Economic Competitiveness Through Academic Research -- The Chronicle of Higher Education (12/04/06) -- The Brookings Institution has posted on its Web site a white paper by university scholars that urges an increase in the number and value of graduate research fellowships awarded by NSF. |
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The National Science Foundation (NSF) is an independent federal agency that supports fundamental research and education across all fields of science with an annual budget of nearly $5.58 billion. NSF funding reaches all 50 states through grants to roughly 1,700 universities and institutions. Each year, NSF receives about 40,000 competitive requests for funding and makes about 10,000 new funding awards. The NSF also awards over $400 million in professional and service contracts yearly. Contact NSF's Office of Legislative and Public Affairs for more information, to unsubscribe, or for permission to reuse newsletter images. |
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