A new study from researchers at Polytechnic Institute shows that by adding an invisible layer of the nanomaterials to the bottom of a metal vessel, an order of magnitude less energy is required to bring water to boil.
The Chair of Display Technology, Universitaet Stuttgart, and Nano-Proprietary, Inc.'s subsidiary Applied Nanotech, Inc. announce significant advancement in the application of carbon nanotubes for the flexible electro...
For 5,000 years or so, the only way to shape metal has been to "heat and beat." Even in modern nanotechnology, working with metals involves carving with electron beams or etching with acid.
Now, Cornell rese...
Single-walled carbon nanotubes (SWCNTs) offer the potential to act as a unique nanofiltration system. While experiments have demonstrated extremely fast flow in these channels, it is still unclear why, and few studies have experimentally probed the detailed structure and movement of the water within nanotubes.
Semiconductors have become indispensable for modern technology. For example, oxide semiconductors such as zinc oxide (ZnO) are the materials of choice for transparent conducting layers for blue LEDs, liquid crystal displ...
Nanoparticle characterization using the Zetasizer Nano from Malvern Instruments is providing essential information for researchers working on drug delivery systems at the UK’s newest School of Pharmacy and Pharmaceutical Sciences.
Using an ultra-fast method of measuring how a transistor switches from the “off” to the “on” state, researchers at the National Institute of Standards and Technology (NIST) recently reported that ...
Researchers at the National Institute of Standards and Technology (NIST) have confirmed that the photoresists used in next-generation semiconductor manufacturing processes now under development are twice as sensitive as previously believed.
Materials scientists at the National Institute of Standards and Technology (NIST) have developed a process to build complex, three-dimensional nanoscale structures of magnetic materials such as nickel or nickel-iron alloys using techniques compatible with standard semiconductor manufacturing.
A well-recognized chemist and polymer expert, DeSimone has uniquely applied his skills to the development of groundbreaking solutions in green manufacturing, and promising applications in gene therapy and drug delivery, as well as medical devices. For his pioneering inventions, lab-to-marketplace entrepreneurship and commitment to mentorship, DeSimone has been awarded this year's $500,000 Lemelson-MIT Prize.
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