Scientists at the Institute of Bioengineering and Nanotechnology (IBN), the world's first bioengineering and nanotechnology research institute, have developed a new genetic engineering technique that promises safer stem cell therapy for cancer patients.
The national effort to motivate young women to explore careers in science and technology received a boost when the College of Nanoscale Science and Engineering (CNSE) of the University at Albany and the Children's Museum of Science and Technology (CMOST) partnered to showcase the exciting world of nanotechnology on July 27.
A team of Purdue University researchers is among a small group in the world that has successfully created ultrapure material that captures new states of matter and could have applications in high-speed quantum computing.
Many substances and nutrients are exchanged across the cell membrane. EPFL scientists have developed a method to observe these exchanges, by taking a highly accurate count of the number of proteins found there.
Dr. Eui-Hyeok Yang, Associate Professor of Mechanical Engineering at Stevens Institute of Technology, has been announced as a recipient of a Defense University Research Instrumentation Program (DURIP) grant for 2011. This highly competitive award from the Air Force Office of Scientific Research (AFOSR) will enable the purchase of state-of-the-art equipment to support ongoing research in nanotechnology and nanoscale engineering.
Fuel cells were originally considered to be replacements for internal combustion engines used in traditional vehicles and replacements for traction batteries used in pure electric vehicles. Unfortunately, they have proved woefully incapable of efficiently and economically supporting the frequent load changes of vehicle traction. Thus building ever larger fuel cells was pursued from about 1991 to 2001 but it ended in tears. After that, better batteries, notably NiMH then Li-ion were able to take over even more of the work of traction.
For the first time, scientists have devised an invisibility cloak material that hides objects from detection using light that is visible to humans. The new device is a leap forward in cloaking materials.
Designed to record bursts of images at an unprecedented speed of 4.5 million frames per second, an innovative X-ray camera being built with STFC's world-class engineering expertise will help a major new research facility shed light on the structure of matter.
Basic operations in the field of nanotechnology that are currently very difficult or impossible to perform can become easy with a new multi-nano tool called FIBLYS. Nanosized components in for example solar cells will be designed and studied in an entirely new way, which the researchers hope will increase the solar cells' energy output with up to 15 percent.
Due to the importance of ciliary functions for health, there is great interest in understanding the mechanism that controls the cilias' beating patterns. But learning exactly how cilia movement is coordinated has been challenging. That may be beginning to change as a result of the creation, by a team of Brandeis researchers, of artificial cilia-like structures that dramatically offers a new approach for cilia study.
The Industrial Consortium On Nanoimprint (ICON), which is headed by the Institute of Materials Research and Engineering (IMRE), a research institute of Singapore's Agency for Science, Technology and Research (A*STAR), is ready to put roll-to-roll nanoimprint manufacturing to the test.
Researchers at the BioPhotonics Laboratory at the UCLA Henry Samueli School of Engineering and Applied Science have developed a compact, lightweight and cost-effective optofluidic platform that integrates imaging cytometry and florescent microscopy and can be attached to a cell phone. The resulting device can be used to rapidly image bodily fluids for cell counts or cell analysis.