Discovery: Research at Princeton University, produced by the Office of the Dean for Research in collaboration with the Office of Communications, reports on significant research endeavors and discoveries, faculty honors, notable awards, recent books and the University’s research administration. The latest edition, published in 2011, is now available.
Archive – March 2011
Princeton University inventors mixed with industry representatives, investors and entrepreneurs at Celebrate Princeton Invention, an annual event that honors University researchers.
Princeton researchers have invented an extremely sensitive sensor that opens up new ways to detect a wide range of substances, from biological markers of cancer to hidden explosives.
Princeton Plasma Physics Lab deputy director Hawryluk's appointment to ITER core management team reported in Science
There are few studies of how motion of the surrounding fluid affects biofilms -- sticky aggregations of microorganisms that grow on wet surfaces ranging from riverbeds to sewer pipes to human teeth. Using a combination of approaches, we found that that string-like filaments called streamers that are formed by biofilms may be much more common than previously believed and that their presence can have a major impact on various flow processes, such as how biomass accumulates in filters.
A team of researchers, including Jeanne Altmann, a Princeton University professor of ecology and evolutionary biology emeritus, has found that the slow pace of human aging is not as unique as once thought. The findings were published in the March 11 issue of the journal Science.
Alireza Shabani, a postdoctoral research associate in chemistry at Princeton University, and an international team of scientists have removed a major obstacle in the quest to engineer quantum systems that will play a major role in the computers, communication networks and biomedical devices of the future.
Warren Powell, a professor of operations research and financial engineering at Princeton University, has received $3.5 million in funding for his energy systems research over the next five years. The support comes from SAP, a major provider of business software, and is intended to help its clients in the energy industry operate more effectively.
Princeton researchers have developed a new method to better understand how an embryo's basic molecular makeup helps ensure that the embryo's development occurs reliably every time. A team led by Thomas Gregor, an assistant professor of physics and the Lewis-Sigler Institute for Integrative Genomics at Princeton University, and Shawn Little, a visiting postdoctoral research associate in the laboratory of Professor Eric Wieschaus in the Department of Molecular Biology at Princeton, has pu