It looks like a Slinky suspended in motion. Yet this photonics advancement, called a metamaterial hyperlens, doesn’t climb down stairs. Instead, it improves our ability to see tiny objects. The hyperlens may someday help detect some of the most lethal forms of cancer.
Scientists, for the first time, have precisely measured a protein’s natural “knee-jerk” reaction...
Purdue Univ. research shows that a small amount of nicotinoid pesticide substantially weakens...
The U.S. Navy has found that it pays to listen to Rolf Mueller carry on about his bat research. From unmanned aerial systems to undersea communications, practical applications flow from the team headed by Mueller, an associate professor of mechanical engineering.
Fans of homebrewed beer and backyard distilleries already know how to employ yeast to convert sugar into alcohol. But a research team led by UC Berkeley bioengineers has gone much further by completing key steps needed to turn sugar-fed yeast into a microbial factory for producing morphine and potentially other drugs, including antibiotics and anti-cancer therapeutics.
Stanford Univ. scientists have solved a long-standing mystery about methanogens, unique microorganisms that transform electricity and carbon dioxide into methane. In a new study, the Stanford team demonstrates for the first time how methanogens obtain electrons from solid surfaces. The discovery could help scientists design electrodes for microbial "factories" that produce methane gas and other compounds sustainably.
The compound eyes found in insects and some sea creatures are marvels of evolution. There, thousands of lenses work together to provide sophisticated information without the need for a sophisticated brain. Human artifice can only begin to approximate these naturally self-assembled structures, and, even then, they require painstaking manufacturing techniques.
Nanoengineers at the Univ. of California, San Diego developed a gel filled with toxin-absorbing nanosponges that could lead to an effective treatment for skin and wound infections caused by MRSA, an antibiotic-resistant bacteria. This "nanosponge-hydrogel" minimized the growth of skin lesions on mice infected with MRSA, without the use of antibiotics.
New commentary argues for further in-depth assessments of the impacts of dispersants on microorganisms to guide their use in response to future oil spills. After the Deepwater Horizon spill, dispersants were used as a first line of defense, even though little is known about how they affect microbial communities or the biodegradation activities they are intended to spur.
To the nearly 2 million people in the United States living with the loss of a limb, including U.S. military veterans, prosthetic devices provide restored mobility, yet lack sensory feedback. A team of engineers and researchers at Washington University in St. Louis is working to change that so those with upper limb prosthetics can feel hot and cold and the sense of touch through their prosthetic hands.
Using sophisticated modeling of genomic data from diverse species, Yale Univ. researchers have answered a longstanding question about which competing model of evolution works best. Their research suggests that the “house of cards” model explains evolutionary processes better than the theory that species undergo the accumulation of many mutations with small effects.
A new target for drug development in the fight against the deadly disease malaria has been discovered by researchers at Massachusetts Institute of Technology. In a recently published paper, the researchers describe how they identified the drug target while studying the way in which the parasites Toxoplasma gondii, which causes toxoplasmosis, and Plasmodium, which causes malaria, access vital nutrients from their host cells.
Supercomputing resources at Oak Ridge National Laboratory will support a new initiative designed to advance how scientists digitally reconstruct and analyze individual neurons in the human brain. Led by the Allen Institute for Brain Science, the BigNeuron project aims to create a common platform for analyzing the 3-D structure of neurons.
Coffee has gone from dietary foe to friend in recent years, partly due to the revelation that it’s rich in antioxidants. Now even spent coffee-grounds are gaining attention for being chock-full of these compounds, which have potential health benefits. In the Journal of Agricultural and Food Chemistry, researchers explain how to extract antioxidants from the grounds. They then determined just how concentrated the antioxidants are.
First there were canaries in coal mines, now there are microbes at nuclear waste sites, oil spills and other contaminated environments. A multi-institutional team of more than 30 scientists has found that statistical analysis of DNA from natural microbial communities can be used to accurately identify environmental contaminants and serve as quantitative geochemical biosensors.
A molecular switch that seems to be essential for embryonic heart cells to grow into more mature, adult-like heart cells has been discovered. The discovery should help scientist better understand how human hearts mature. Of particular interest to stem cell and regenerative medicine researchers, the finding may lead to laboratory methods to create heart cells that function more like those found in adult hearts.
A team of neuroscientists and bioengineers a have created a miniature, fiber-optic microscope designed to peer deeply inside a living brain. The laser-scanning microscope, a prototype which will be further refined, uses fiber-optics and a tiny electrowetting lens. Compared to other small, focusing lenses, it’s fast and not sensitive to motion. This allows it to reliably focus on living tissue.
A new technique invented at Massachusetts Institute of Technology can measure the relative positions of tiny particles as they flow through a fluidic channel, potentially offering an easy way to monitor the assembly of nanoparticles, or to study how mass is distributed within a cell. With further advancements, this technology has the potential to resolve the shape of objects in flow as small as viruses, the researchers say.
Physicists were able to show, for the first time, that the nuclear spins of single molecules can be detected with the help of magnetic particles at room temperature. The researchers describe a novel experimental setup with which the tiny magnetic fields of the nuclear spins of single biomolecules could be registered for the first time.
The editors of R&D Magazine have announced that today, May 18, 2015, is the last day to accept 2015 R&D 100 Award entries. The R&D 100 Awards have a 50 plus year history of awarding the 100 most technologically significant products of the year.
In recent years, public health concerns about post-traumatic stress disorder (PTSD) have risen significantly, driven in part by affected military veterans returning from conflicts in the Middle East and elsewhere. PTSD is associated with number of psychological maladies, among them chronic depression, anger, insomnia, eating disorders and substance abuse.
Researchers studying how the brain makes decisions have, for the first time, recorded the moment-by-moment fluctuations in brain signals that occur when a monkey making free choices has a change of mind. The findings result from experiments led by electrical engineering Prof. Krishna Shenoy, whose Stanford Univ. lab focuses on movement control and neural prostheses controlled by the user's brain.
Washington State Univ. researchers have found a way to make jet fuel from a common black fungus found in decaying leaves, soil and rotting fruit. The researchers hope the process leads to economically viable production of aviation biofuels in the next five years. The researchers used Aspergillus carbonarius ITEM 5010 to create hydrocarbons, the chief component of petroleum, similar to those in aviation fuels.
Bats are masters of flight in the night sky, capable of steep nosedives and sharp turns that put our best aircrafts to shame. Although the role of echolocation in bats’ impressive midair maneuvering has been extensively studied, the contribution of touch has been largely overlooked. A study published in Cell Reports shows, for the first time, that a unique array of sensory receptors in the wing provides feedback to a bat during flight.
New research has brought us closer to being able to understand the health benefits of coffee. Monash Univ. researchers, in collaboration with Italian coffee roasting company Illycaffè, have conducted the most comprehensive study to date on how free radicals and antioxidants behave during every stage of the coffee brewing process, from intact bean to coffee brew.
If you opt to wear soft contact lenses, chances are you are using hydrogels on a daily basis. Made up of polymer chains that are able to absorb water, hydrogels used in contacts are flexible and allow oxygen to pass through the lenses, keeping eyes healthy. Hydrogels can be up to 99% water and as a result are similar in composition to human tissues.
Bombardier beetles, which exist on every continent except Antarctica, have a pretty easy life. Virtually no other animals prey on them, because of one particularly effective defense mechanism: When disturbed or attacked, the beetles produce an internal chemical explosion in their abdomen and then expel a jet of boiling, irritating liquid toward their attackers.
Global warming will eventually push 1 out of every 13 species on Earth into extinction, a new study projects. It won't quite be as bad in North America, where only 1 in 20 species will be killed off because of climate change or Europe where the extinction rate is nearly as small. But in South America, that forecasted heat-caused extinction rate soars to 23%, the worst for any continent.
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