Feature Channels

Nanotechnology

Filters:

Showing results 1 – 10 of 670 |Page
«
1
2
3
4
5
6
7
8
9
10
…
67
»

Science Channels: Technology, Nanotechnology	Silicon-Based Nanoparticles Could Make LEDs Cheaper, Greener to Produce Researchers at the University of Washington have created a material they say would make LED bulbs cheaper and greener to manufacture, driving down the price. Their silicon-based nanoparticles soften the blue light emitted by LEDs, creating white light that more closely resembles sunlight. View \| Comment	Released: 6/12/2013 5:00 PM EDT University of Washington
Science Channels: Nanotechnology, Journal Related News Keywords: Physics, Catalysis, Energy, Nanotechnology	Exposure to Air Transforms Gold Alloys Into Catalytic Nanostructures Brookhaven Lab scientists create promising gold-indium oxide nanoparticles through room-temperature oxidation View \| Comment	Released: 6/11/2013 3:30 PM EDT Brookhaven National Laboratory
Science Channels: Nanotechnology, Journal Related News, Grant Funded News Keywords: Nanocrystals, Nanoparticles, block co-polymer, colloidal nanocrystals, Materials	Polymer Nanoreactors Create Uniform Nanocrystals Using star-shaped block co-polymer structures as tiny reaction vessels, researchers have developed an improved technique for producing nanocrystals with consistent sizes, compositions and architectures – including metallic, ferroelectric, magnetic, semiconductor and luminescent nanocrystals. View \| Comment	Released: 6/11/2013 12:55 PM EDT Georgia Institute of Technology
Science Channels: Nanotechnology, Featured: DailyWire, Featured: SciWire, Energy, Journal Related News Keywords: Lithium Ion Batteries	“Popcorn” Particle Pathways Promise Better Lithium-Ion Batteries Researchers at Sandia National Laboratories have confirmed the particle-by-particle mechanism by which lithium ions move in and out of electrodes made of lithium iron phosphate (LiFePO4, or LFP), findings that could lead to better performance in lithium-ion batteries in electric vehicles, medical equipment and aircraft. The research is reported in the journal Nano Letters, 2013, 13 (3), pp 866-872. View \| Comment	Released: 6/11/2013 7:00 AM EDT Sandia National Laboratories
Medicine Science Channels: Biotech, Nanotechnology, Pharmaceuticals, Journal Related News Keywords: Sanford-Burnham Medical Research Institute , Erkki Ruoslahti, UC Santa Barbara, Nanoparticle, Samir Mitragotri	Shape of Nanoparticles Points the Way Toward More Targeted Drugs A collaboration of scientists at Sanford-Burnham and the University of California, Santa Barbara, finds that rod-shaped particles, rather than spherical particles, appear more effective at adhering to cells where they’re needed. View \| Comment	Embargo expired: 6/10/2013 3:00 PM EDT Released: 6/10/2013 11:00 AM EDT Sanford-Burnham Medical Research Institute
Science Channels: Engineering, Nanotechnology, Journal Related News Keywords: Spintronics, quantum technologies, Molecular Engineering, Quantum Computers, Qubits, atomic-scale defect, nanoscale sensors	Spintronics Approach Enables New Quantum Technologies A team of researchers including members of the University of Chicago’s Institute for Molecular Engineering highlight the power of emerging quantum technologies in two recent papers published in the Proceedings of the National Academy of Sciences (PNAS). View \| Comment	Released: 6/4/2013 2:45 PM EDT University of Chicago
Science Channels: Engineering, Materials Science, Nanotechnology, Journal Related News Keywords: Graphene, CVD, grain boundaries, Carbon, atom, Atomic Scale, Crystalline, Composite Materials, Nanotech, Nanotechnology, 2D, 3D, 2D layered materials	Even with Defects, Graphene Is Strongest Material in the World Columbia Engineering researchers demonstrate that graphene, even if stitched together from many small crystalline grains, is almost as strong as graphene in its perfect crystalline form. This resolves a contradiction between theoretical simulations, which predicted grain boundaries can be strong, and earlier experiments, which indicated they were much weaker than the perfect lattice. View \| Comment	Released: 5/31/2013 12:00 PM EDT Columbia University School of Engineering and Applied Science
Science Channels: Nanotechnology Keywords: bed bugs, Stony Brook University, Nanotechnology, Fibertrap, Pest Control, Center for Advanced Technology in Sensor Materials, Nystar, Sensor CAT, Miriam Rafailovich, Advanced Energy Research and Technology Center , microfibers, Parasite, bed bug removal, bed bug bites	Innovative New Nanotechnology Stops Bed Bugs in Their Tracks - Literally Bed bugs now need to watch their step. Researchers at Stony Brook University have developed a safe, non-chemical resource that literally stops bed bugs in their tracks. This innovative new technology acts as a man-made web consisting of microfibers 50 times thinner than a human hair which entangle and trap bed bugs and other insects. This patent-pending technology is being commercialized by Fibertrap, a private company that employs non-toxic pest control methods. View \| Comment	Released: 5/30/2013 2:00 PM EDT Stony Brook Medicine
Science Channels: Engineering, Nanotechnology, Journal Related News Keywords: Miniaturized Electronics, Ion Channel, nanopore sequencing, Cell Signaling, energetics, Single Molecule, Microelectronics, Amplifier, Nanotech, Nanotechnology	Fastest Measurements Ever Made of Ion Channel Proteins Columbia Engineering researchers have used miniaturized electronics to measure the activity of individual ion-channel proteins with temporal resolution as fine as one microsecond, producing the fastest recordings of single ion channels ever performed. View \| Comment	Released: 5/23/2013 4:00 PM EDT Columbia University School of Engineering and Applied Science
Science Channels: Nanotechnology, Physics, Journal Related News Keywords: Physics, nano, Nanotechnology, LED, solid-state, Materials Science, Energy	Atomic-Scale Investigations Solve Key Puzzle of LED Efficiency MIT and Brookhaven Lab scientists use electron microscopy imaging techniques to settle a solid-state controversy and raise new experimental possibilities View \| Comment	Released: 5/23/2013 4:00 PM EDT Brookhaven National Laboratory