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New “knobs” can dial in control of materials

February 25, 2015 9:52 am | by Anne Ju, Cornell Univ. | News | Comments

Designing or exploring new materials is all about controlling their properties. In a new study, Cornell Univ. scientists offer insight on how different “knobs” can change material properties in ways that were previously unexplored or misunderstood.

Boosting carbon’s stability for better lithium-air batteries

February 25, 2015 9:15 am | by Ed Hayward, Boston College | News | Comments

To power a car so it can travel hundreds of miles at a time, lithium-ion batteries of the future are going to have to hold more energy without growing too big in size. That's one of the dilemmas confronting efforts to power cars through rechargeable battery technologies. In order to hold enough energy to enable a car trip of 300 to 500 miles before recharging, current lithium-ion batteries become too big or too expensive.

Can an HIV drug beat strep throat, flesh-eating bacteria?

February 25, 2015 8:44 am | by American Chemical Society | News | Comments

With antibiotic resistance on the rise, scientists are looking for innovative ways to combat bacterial infections. The pathogen that causes conditions from strep throat to flesh-eating disease is among them, but scientists have now found a tool that could help them fight it: a drug approved to treat HIV. Their work, appearing in ACS Chemical Biology, could someday lead to new treatments.

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Russia will retain part of ISS after operation

February 25, 2015 8:32 am | by Associated Press | News | Comments

Russia's space agency expects the International Space Station (ISS) to stay in orbit through 2024, and plans to create its own space outpost with its segment of the station after that. Roscosmos' scientific council concluded that several Russian modules could eventually be undocked to "perform the task of ensuring Russia's guaranteed presence in space."

Pretreatment could cut biofuel costs by 30% or more

February 24, 2015 2:43 pm | by Sean Nealon, Univ. of California, Riverside | News | Comments

Researchers at the Univ. of California, Riverside have invented a novel pretreatment technology that could cut the cost of biofuels production by about 30% or more by dramatically reducing the amount of enzymes needed to breakdown the raw materials that form biofuels.

Electrolyte rids batteries of short-circuiting fibers

February 24, 2015 2:31 pm | by Frances White, PNNL | News | Comments

Dendrites create fire hazards and can limit the ability of batteries to power our smart phones and store renewable energy for a rainy day. Now a new electrolyte for lithium batteries that's described in Nature Communications eliminates dendrites while also enabling batteries to be highly efficient and carry a large amount of electric current.

Ultra-thin nanowires can trap electron “twisters”

February 24, 2015 11:11 am | by Phil Sneiderman, Johns Hopkins Univ. | News | Comments

Superconductor materials are prized for their ability to carry an electric current without resistance, but this valuable trait can be crippled or lost when electrons swirl into tiny tornado-like formations called vortices. These disruptive mini-twisters often form in the presence of magnetic fields, such as those produced by electric motors.

The Difference Between Research and Development

February 24, 2015 9:34 am | by Bradford L. Goldense, President, Goldense Group Inc., Needham, Mass. | Articles | Comments

The already unclear lines separating research from development are getting even blurrier as more companies allocate some part of their R&D budget to take on riskier projects, and invest in the necessary infrastructure to manage these riskier activities. New products are now being launched out of recently formed "Innovation" organizations", and more are coming from existing “Advanced Development" organizations.

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Innovations in Cell Culture Technology Drive Drug Discovery Studies

February 24, 2015 9:14 am | by Cindy Neeley, PhD, Field Applications Scientist, Thermo Fisher Scientific, Labware & Specialty Plastics, Rochester, N.Y. | Thermo Fisher Scientific | Articles | Comments

Scientists around the world make use of cell culture techniques on a daily basis. Whether they happen to be working with primary cell cultures, secondary cultures or cell lines, they all face many of the same problems: slow growth, spontaneous differentiation, evaporation, contamination and a host of other issues that require troubleshooting.

Computational Model Reveals the Importance of Transitional Dynamics of “Memory Molecule” in Memory Formation

February 24, 2015 9:01 am | by Glen C. Rains | Articles | Comments

The dynamics of a molecule abundant in the synapse, Ca2+/Calmodulin dependent kinase type II (CaMKII), known as the “memory molecule”, are important in memory formation. Synapses are junctions connecting neurons and there’s increasing evidence they store memory when neurons are stimulated by the environment.

Key protein found that allows Plavis to conquer platelets

February 24, 2015 8:38 am | by Mark Derewicz, Univ. of North Carolina Health Care | News | Comments

Researchers at the Univ. of North Carolina School of Medicine have found that the blood platelet protein Rasa3 is critical to the success of the common anti-platelet drug Plavix, which breaks up blood clots during heart attacks and other arterial diseases. The discovery details how Rasa3 is part of a cellular pathway crucial for platelet activity during clot formation.

Building tailor-made DNA nanotubes step-by-step

February 24, 2015 8:10 am | by McGill Univ. | News | Comments

Researchers at McGill Univ. have developed a new, low-cost method to build DNA nanotubes block-by-block, a breakthrough that could help pave the way for scaffolds made from DNA strands to be used in applications such as optical and electronic devices or smart drug delivery systems. Many researchers, including the McGill team, have previously constructed nanotubes using a method that relies on spontaneous assembly of DNA in solution.

Motor proteins prefer slow, steady movement

February 23, 2015 10:43 am | by Mike Williams, Rice Univ. | News | Comments

It takes at least two motor proteins to tango, according to Rice Univ. scientists who discovered the workhorses that move cargo in cells are highly sensitive to the proximity of their peers. The study suggests that the collective behavior of motor proteins like kinesins keeps cellular transport systems robust by favoring slow and steady over maximum movement.

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EMI Compliance: Choosing the Right Shielding and Gasketing

February 23, 2015 10:28 am | by Ed Nakauchi, Technical Consultant, Orbel Corporation | Articles | Comments

Compliance to EMI regulations is essential in today’s global market and applies to almost any electronic/electrical device. Also, almost every country in the world now requires meeting not just EMI emissions standards, but also immunity requirements.

Researchers identify keys to improved polymer solar cells

February 23, 2015 8:38 am | by Bill Kisliuk, Univ. of California, Los Angeles | News | Comments

Paving the way for lighter and more flexible solar devices, Univ. of California, Los Angeles researchers have identified the key principles for developing high-efficiency polymer solar cells. Today’s commercially produced solar panels use silicon cells to efficiently convert sunlight to energy. But silicon panels are too heavy to be used for energy-producing coatings for buildings and cars, or flexible and portable power supplies.

Virus-cutting enzyme helps bacteria remember a threat

February 20, 2015 12:33 pm | by Wynne Parry, Rockefeller Univ. | News | Comments

Bacteria may not have brains, but they do have memories, at least when it comes to viruses that attack them. Many bacteria have a molecular immune system which allows these microbes to capture and retain pieces of viral DNA that they have encountered in the past, in order to recognize and destroy it when it shows up again.

Evolving a bigger brain with human DNA

February 20, 2015 10:54 am | by Karl Bates, Duke Univ. | News | Comments

The size of the human brain expanded dramatically during the course of evolution, imparting us with unique capabilities to use abstract language and do complex math. But how did the human brain get larger than that of our closest living relative, the chimpanzee, if almost all of our genes are the same?

Semiconductor works better when hitched to graphene

February 20, 2015 8:41 am | by SLAC Office of Communications | News | Comments

Graphene shows great promise for future electronics, advanced solar cells, protective coatings and other uses, and combining it with other materials could extend its range even further. Experiments at the SLAC National Accelerator Laboratory looked at the properties of materials that combine graphene with a common type of semiconducting polymer.

Fibers made by transforming materials

February 20, 2015 8:26 am | by David L. Chandler, MIT News Office | News | Comments

Scientists have known how to draw thin fibers from bulk materials for decades. But a new approach to that old method, developed by researchers at Massachusetts Institute of Technology, could lead to a whole new way of making high-quality fiber-based electronic devices. The idea grew out of a long-term research effort to develop multifunctional fibers that incorporate different materials into a single long functional strand.

Tool helps boost wireless channel frequencies, capacity

February 20, 2015 8:16 am | by Laura Ost, NIST | News | Comments

Smartphones and tablets are everywhere, which is great for communications but a growing burden on wireless channels. Forecasted huge increases in mobile data traffic call for exponentially more channel capacity. Boosting bandwidth and capacity could speed downloads, improve service quality and enable new applications like the Internet of Things connecting a multitude of devices.

Perfect colors, captured with ultra-thin lens

February 20, 2015 7:50 am | by Caroline Perry, Harvard Univ. | News | Comments

Most lenses are, by definition, curved. After all, they are named for their resemblance to lentils, and a glass lens made flat is just a window with no special powers. But a new type of lens created at the Harvard School of Engineering and Applied Sciences turns conventional optics on its head.

Shape-shifting groups of nanorods release heat differently

February 19, 2015 9:11 am | by Justin H.S. Breaux, Argonne National Laboratory | News | Comments

Researchers have revealed previously unobserved behaviors that show how details of the transfer of heat at the nanoscale cause nanoparticles to change shape in ensembles.

For the first time, spacecraft catch a solar shockwave in the act

February 19, 2015 9:02 am | by Jennifer Chu, MIT News Office | News | Comments

New research has shown that a 2013 solar storm produced “ultrarelativistic, killer electrons” in 60 seconds, disrupting Earth's magnetic field and setting off a magnetized sound pulse around the planet. 

Does dark matter cause mass extinctions and geologic upheavals?

February 19, 2015 8:56 am | by NYU | News | Comments

Research concludes that Earth's infrequent but predictable path around and through our Galaxy's disc may have a direct and significant effect on geological and biological phenomena occurring on Earth.

Paper-like material could boost electric vehicle batteries

February 18, 2015 8:58 am | by Sean Nealon, University of California, Riverside | News | Comments

Researchers at the Univ. of California, Riverside have developed a novel paper-like material for lithium-ion batteries. It has the potential to boost by several times the specific energy, or amount of energy that can be delivered per unit weight of the battery. This paper-like material is composed of sponge-like silicon nanofibers more than 100 times thinner than human hair.

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