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Cloud computing revolution applies to evolution

September 10, 2014 7:30 am | by Mike Williams, Rice Univ. | News | Comments

A $1.1 million National Science Foundation grant to two Rice Univ. computer science groups will allow them to build cloud computing tools to help analyze evolutionary patterns. With the three-year grant, Christopher Jermaine and Luay Nakhleh, both associate professors of computer science, will develop parallel processing tools that track the evolution of genes and genomes across species.

Buckyballs, diamondoids join forces in tiny electronic gadget

September 9, 2014 12:38 pm | by Andrew Gordon, SLAC National Accelerator Laboratory | News | Comments

Scientists have married two unconventional forms of carbon to make a molecule that conducts electricity in only one direction. This tiny electronic component, known as a rectifier, could play a key role in shrinking chip components down to the size of molecules to enable faster, more powerful devices.

Co-flowing liquids can stabilize chaotic “whipping” in microfluidic jets

September 9, 2014 7:49 am | by John Toon, Georgia Institute of Technology | Videos | Comments

Industrial wet spinning processes produce fibers from polymers and other materials by using tiny needles to eject continuous jets of liquid precursors. The electrically charged liquids ejected from the needles normally exhibit a chaotic “whipping” structure as they enter a secondary liquid that surrounds the microscopic jets.

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Platelet-like particles augment natural blood clotting for treating trauma

September 8, 2014 8:23 am | by John Toon, Georgia Institute of Technology | News | Comments

A new class of synthetic platelet-like particles could augment natural blood clotting for the emergency treatment of traumatic injuries. The clotting particles, which are based on soft and deformable hydrogel materials, are triggered by the same factor that initiates the body’s own clotting processes.

Ultra-thin detector captures unprecedented range of light

September 8, 2014 8:13 am | by Heather Dewar, Media Relations, Univ. of Maryland | News | Comments

New research at the Univ. of Maryland could lead to a generation of light detectors that can see below the surface of bodies, walls and other objects. Using the special properties of graphene, a prototype detector is able to see an extraordinarily broad band of wavelengths. Included in this range are terahertz waves, which are invisible to the human eye.

Phosphorus a promising semiconductor

September 8, 2014 8:02 am | by Mike Williams, Rice Univ. | News | Comments

Defects damage the ideal properties of many 2-D materials, like carbon-based graphene. Phosphorus just shrugs. That makes it a promising candidate for nanoelectronic applications that require stable properties, according to new research by Rice Univ. theoretical physicist Boris Yakobson and his colleagues.

Sun-powered desalination for villages in India

September 8, 2014 7:51 am | by David L. Chandler, MIT News Office | News | Comments

Around the world, there’s more salty groundwater than fresh, drinkable groundwater. For example, 60% of India is underlain by salty water. Now an analysis by Massachusetts Institute of Technology researchers shows that a different desalination technology called electrodialysis, powered by solar panels, could provide enough clean, palatable drinking water to supply the needs of a typical village.

Banked blood grows stiffer with age, study finds

September 5, 2014 12:13 pm | by Liz Ahlberg, Univ. of Illinois | News | Comments

It may look like fresh blood and flow like fresh blood, but the longer blood is stored, the less it can carry oxygen into the tiny microcapillaries of the body. Using advanced optical techniques, researchers measured the stiffness of the membrane surrounding red blood cells over time. They found that, even though the cells retain their shape and hemoglobin content, the membranes get stiffer, steadily decreasing the cells’ functionality.

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Making Light Work of Industrial Workflows

September 5, 2014 9:31 am | by Markus Fabich, Product and Application Specialist for Materials Science Microscopy at Olympus Europa SE & Co. KG | Articles | Comments

Quality assurance is essential in industrial workflows and the Dortmund-based SGS Institut Fresenius GmbHs, a subsidiary of the SGS Group, undertakes a diverse range of quality assurance tasks in the automotive, aerospace and medical technology sectors. Given that material quality is essential in these sectors, any technologies that can enhance the accuracy, efficiency and ease of material inspection and analysis are welcomed.

The birth of a mineral

September 5, 2014 8:12 am | by Mary Beckman, Pacific Northwest National Laboratory | Videos | Comments

One of the most important molecules on Earth, calcium carbonate crystallizes into chalk, shells and minerals the world over. In a study led by Pacific Northwest National Laboratory, researchers used a powerful microscope that allows them to see the birth of crystals in real time, giving them a peek at how different calcium carbonate crystals form, they report in Science.

Researchers test multi-element, high-entropy alloy with surprising results

September 5, 2014 7:59 am | by Lynn Yarris, Lawrence Berkeley National Laboratory | News | Comments

A new concept in metallic alloy design has yielded a multiple-element material that not only tests out as one of the toughest on record, but, unlike most materials, the toughness as well as the strength and ductility of this alloy actually improves at cryogenic temperatures. This multi-element alloy was synthesized and tested through a collaboration of researchers.

Magnetic nanocubes self-assemble into helical superstructures

September 5, 2014 7:46 am | by Jeanne Galatzer-Levy, Univ. of Illinois, Chicago | News | Comments

Materials made from nanoparticles hold promise for myriad applications. The challenge in creating these wonder materials is organizing the nanoparticles into orderly arrangements. Nanoparticles of magnetite, the most abundant magnetic material on earth, are found in living organisms from bacteria to birds. Nanocrystals of magnetite self-assemble into fine compass needles in the organism that help it to navigate.

Should scientists handle retractions differently?

September 5, 2014 7:33 am | by Peter Dizikes, MIT News Office | News | Comments

It’s one of the highest-profile cases of scientific fraud in memory: In 2005, South Korean researcher Woo-Suk Hwang and colleagues made international news by claiming that they had produced embryonic stem cells from a cloned human embryo using nuclear transfer. But within a year, the work had been debunked, soon followed by findings of fraud. South Korea put a moratorium on stem cell research funding.

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Researcher’s nanoparticle key to new malaria vaccine

September 4, 2014 11:26 am | by Colin Poitras, UConn | News | Comments

A self-assembling nanoparticle designed by a Univ. of Connecticut (UConn) professor is the key component of a potent new malaria vaccine that is showing promise in early tests. For years, scientists trying to develop a malaria vaccine have been stymied by the malaria parasite’s ability to transform itself and “hide” in the liver and red blood cells of an infected person to avoid detection by the immune system.

Changing temperature powers sensors in hard-to-reach places

September 4, 2014 10:04 am | by Michelle Ma, Univ. of Washington | Videos | Comments

A centuries-old clock built for a king is the inspiration for a group of computer scientists and electrical engineers who hope to harvest power from the air. The clock, powered by changes in temperature and atmospheric pressure, was invented in the early 17th century by a Dutch builder. Three centuries later, Swiss engineer Jean Leon Reutter built on that idea and created the Atmos mechanical clock that can run for years.

Titania-based material holds promise as new insulator

September 4, 2014 9:50 am | by Matt Shipman, News Services, North Carolina State Univ. | News | Comments

Research from North Carolina State Univ. shows that a type of modified titania, or titanium dioxide, holds promise as an electrical insulator for superconducting magnets, allowing heat to dissipate while preserving the electrical paths along which current flows. Superconducting magnets are being investigated for use in next-generation power generating technologies and medical devices.

Scientists map protein in living bacterial cells

September 4, 2014 8:29 am | by SLAC National Accelerator Laboratory | News | Comments

Scientists have for the first time mapped the atomic structure of a protein within a living cell. The technique, which peered into cells with an x-ray laser, could allow scientists to explore some components of living cells as never before.

Electron microscopes take first measurements of nanoscale chemistry in action

September 4, 2014 8:15 am | by Louise Lerner, Argonne National Laboratory | Videos | Comments

Scientists’ underwater cameras got a boost this summer from the Electron Microscopy Center at Argonne National Laboratory. Along with colleagues at the Univ. of Manchester, researchers captured the world’s first real-time images and simultaneous chemical analysis of nanostructures while “underwater,” or in solution.

Cellular RNA can template DNA repair in yeast

September 4, 2014 7:54 am | by John Toon, Georgia Institute of Technology | News | Comments

The ability to accurately repair DNA damaged by spontaneous errors, oxidation or mutagens is crucial to the survival of cells. This repair is normally accomplished by using an identical or homologous intact sequence of DNA, but scientists have now shown that RNA produced within cells of a common budding yeast can serve as a template for repairing the most devastating DNA damage—a break in both strands of a DNA helix.

Breakthrough for carbon nanotube solar cells

September 3, 2014 11:47 am | by Amanda Morris, Northwestern Univ. | News | Comments

Lighter, more flexible and cheaper than conventional solar-cell materials, carbon nanotubes (CNTs) have long shown promise for photovoltaics. But research stalled when CNTs proved to be inefficient, converting far less sunlight into power than other methods. Now a research team has created a new type of CNT solar cell that is twice as efficient as its predecessors.  

Nano-sized synthetic scaffolding technique

September 3, 2014 7:33 am | by Jim Barlow, Director of Science and Research Communications, Univ. of Oregon | News | Comments

Scientists have tapped oil and water to create scaffolds of self-assembling, synthetic proteins called peptoid nanosheets that mimic complex biological mechanisms and processes. The accomplishmentis expected to fuel an alternative design of the 2-D peptoid nanosheets that can be used in a broad range of applications. Among them could be improved chemical sensors and separators, and safer, more effective drug delivery vehicles.

How Big is Big—Tall, Grande, Venti Data?

September 2, 2014 1:51 pm | by Nick Burch, CTO, Quanticate | Articles | Comments

Today, big data is a hot topic within almost every industry. May saw the biggest ever European technologists conference on big data, Berlin Buzzwords, while the likes of O'Reilly's Strata conference pull in huge numbers of attendees keen to learn how to adapt to this new world. Despite all the interest, a great deal of confusion remains around big data.

Ebola genomes sequenced

September 2, 2014 10:28 am | by Lisa Girard, Broad Institute Communication | News | Comments

Responding rapidly to the deadly outbreak of Ebola virus disease (EVD) in West Africa, a team of researchers from the Broad Institute and Harvard Univ., working with the Sierra Leone Ministry of Health and Sanitation and researchers elsewhere, has sequenced and analyzed many Ebola virus genomes. Their findings could have important implications for rapid field diagnostic tests.

Engineers develop new sensor to detect tiny individual nanoparticles

September 2, 2014 8:51 am | by Tony Fitzpatrick, Washington Univ. in St. Louis | News | Comments

A team of researchers in the U.S. and China have developed a new sensor that can detect and count nanoparticles, at sizes as small as 10 nm, one at a time. The researchers say the sensor, which is a Raman microlaser sensor in a silicon dioxide chip that does not need rare-earth ions to achieve high resolution, could potentially detect much smaller particles, viruses and small molecules.

Single laser stops molecular tumbling motion instantly

September 2, 2014 8:26 am | News | Comments

In the quantum world, making the simple atom behave is one thing, but making the more complex molecule behave is another story. Now Northwestern Univ. scientists have figured out an elegant way to stop a molecule from tumbling so that its potential for new applications can be harnessed: shine a single laser on a trapped molecule and it instantly cools to the temperature of outer space, stopping the rotation of the molecule.

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