When you think of researchers working on nanotechnology, you probably picture scientists and engineers manipulating incredibly small structures in a state-of-the-art lab. But there are many others who are also interested in the future of this technology, including community planners, political scientists, urban designers--maybe even your next door neighbor. Find out more in this Science Nation video.
Credit: Science Nation, National Science Foundation
"Nanotechnology: Super Small Science" is a six-part series that shows viewers how atoms and molecules that are thousands of times smaller than the width of a human hair can be used as building blocks to create future technology. The series features a dozen world class American researchers, including quantum physicist and National Medal of Science winner Paul Alivisatos. Find out more in this Special Report.
Credit: NBC Learn and the National Science foundation
The Division of Biological Infrastructure in NSF's Directorate for Biological Sciences empowers biological discovery by investing in the development and enhancement of biological research resources, human capital, and biology centers and other mid-to-large scale infrastructure. These investments support advances in all areas of biological research.
The National Science Foundation and National Nanotechnology Initiative aim to promote an understanding and appreciation of nanotechnology and STEM careers in high school students by inviting them to design an original superhero with nanotechnology-enabled gear. Students can envision gear that is grounded in current research but not yet possible, allowing them to learn about the potentials and limitations of real-world nanotechnology.
January 9, 2016
Investigating the impact of natural and human-made nanomaterials on living things
Center for Environmental Implications of Nanotechnology develops tools to assess current and future risk
We can't see them, but nanomaterials, both natural and human-made, are literally everywhere, from our personal care products to our building materials--we're even eating and drinking them.
At the NSF-funded Center for Environmental Implications of Nanotechnology (CEINT), headquartered at Duke University, scientists and engineers are researching how some of these nanoscale materials affect living things. One of CEINT's main goals is to develop tools that can help assess possible risks to human health and the environment. A key aspect of this research happens in mesocosms, which are outdoor experiments that simulate the natural environment - in this case, wetlands. These simulated wetlands in Duke Forest serve as a testbed for exploring how nanomaterials move through an ecosystem and impact living things.
CEINT is a collaborative effort bringing together researchers from Duke, Carnegie Mellon University, Howard University, Virginia Tech, University of Kentucky, Stanford University, and Baylor University. CEINT academic collaborations include on-going activities coordinated with faculty at Clemson, North Carolina State and North Carolina Central universities, with researchers at the National Institute of Standards and Technology and the Environmental Protection Agency labs, and with key international partners.
The research in this episode was supported by NSF award #1266252, Center for the Environmental Implications of NanoTechnology.
Any opinions, findings, conclusions or recommendations presented in this material are only those of the presenter grantee/researcher, author, or agency employee; and do not necessarily reflect the views of the National Science Foundation.