For the first time, scientists led by John V. Badding, a professor of chemistry at Penn State Univ., have discovered how to produce ultra-thin "diamond nanothreads" that promise extraordinary properties, including strength and stiffness greater than that of today's strongest nanotubes and polymers. The core of the nanothreads is a long, thin strand of carbon atoms arranged just like the fundamental unit of a diamond's structure.
Researchers at the Salk Institute have discovered an on-and-off “switch” in cells that may hold the key to healthy aging. This switch, which involves the enzyme telomerase, points to a way to encourage healthy cells to keep dividing and generating, for example, new lung or liver tissue, even in old age.
Biochemists in California have developed a program that predicts the placement of chemical marks that control the activity of genes based on sequences of DNA. By comparing sequences with and without epigenomic modification, the researchers identified DNA patterns associated with the changes. They call this novel analysis pipeline Epigram and have made both the program and the DNA motifs they identified openly available to other scientists.
The American Society of Civil Engineers are urging Congress and the Obama Administration to develop a national strategy for mitigating flood risks, saying the U.S. has not fully heeded lessons from Hurricane Katrina and Superstorm Sandy. A sustainable way to pay for infrastructure maintenance and updates to help manage floods is needed, they say, and they will release their full recommendations Monday in Philadelphia.
A SpaceX cargo ship rocketed toward the International Space Station on Sunday, carrying more than 5,000 pounds of supplies, including the first 3-D printer for astronauts in orbit. The printer, developed by Made in Space, is sturdier than Earthly models and is a technology demonstrator. . But NASA envisions astronauts one day using one to crank out spare parts as needed.
A new, ultrasensitive biosensor made from graphene has been used to detect molecules that indicate an increased risk of developing cancer. The biosensor has been shown to be more than five times more sensitive than bioassay tests currently in use, and was able to provide results in a matter of minutes, opening up the possibility of a rapid, point-of-care diagnostic tool for patients.
Faster, smaller, greener computers, capable of processing information up to 1,000 times faster than currently available models, could be made possible by replacing silicon with materials that can switch back and forth between different electrical states. Recent research in the U.K. show that these phase-change materials have promise in new processors made with chalcogenide glass.
Researchers at Argonne National Laboratory have created a small scale “hydrogen generator” that uses light and a 2-D graphene platform to boost production of the hard-to-make element. The research also unveiled a previously unknown property of graphene. The 2-D chain of carbon atoms not only gives and receives electrons, but can also transfer them into another substance.
Chemical experiments with superheavy elements, which have atomic numbers beyond 104, are extremely challenging because they must be synthesized in a particle accelerator and they decay rapidly. An international team has, for the first time, established a chemical bond between a superheavy element, in this case element 106, seaborgium, and a carbon atom. The experiment opens the door to new investigations of relativity effects.
Glenn Johnson, CEO of BlueVine Graphene Industries Inc., said many of the methodologies being utilized to produce graphene today are not easily scalable and require numerous post-processing steps to use it in functional applications. He said his company has developed a way to scale graphene production using a roll-to-roll chemical vapor deposition process.
Univ. of Utah physicists read the subatomic “spins” in the centers or nuclei of hydrogen isotopes, and used the data to control current that powered light in a cheap, plastic LED—at room temperature and without strong magnetic fields. The study brings physics a step closer to practical machines that work “spintronically” as well as electronically.
A chinstrap that can harvest energy from jaw movements has been created by a group of researchers in Canada. It’s hoped that the device will be able to generate electricity from eating, chewing and talking, and power a number of small-scale implantable or wearable electronic devices, such as hearing aids, cochlear implants, electronic hearing protectors and communication devices.
Transforming substances from liquids into gels plays an important role across many industries, but the transformation process, called gelation, is expensive and energy demanding. Instead of adding chemical thickeners and heating or cooling the fluids, as is traditional, researchers in Okinawa are experimenting with microfluidic platforms, adding nanoparticles and biomolecules with used pH, chemical and temperature sensing properties.
For decades, the power conversion efficiency of organic solar cells was hampered by the drawbacks of commonly used metal electrodes, including their instability and susceptibility to oxidation. Now for the first time, researchers at the Univ. of Massachusetts Amherst have developed a more efficient, easily processable and lightweight solar cell that can use virtually any metal for the electrode, effectively breaking the “electrode barrier.”
There's some truth to the effectiveness of folk remedies, according to findings by a team from Detroit Medical Center. Dr. Sonal Saraiya and her colleagues in Michigan found that packing strips of cured pork in the nose of a child who suffers from uncontrollable, life-threatening nosebleeds can stop the hemorrhaging. The discovery won a 2014 Ig Nobel prize, the annual award for sometimes inane, but often practical, scientific discoveries.
Mathematics might be able to reduce the need for invasive biopsies in patients suffering kidney damage related to the autoimmune disease lupus. In a new study, researchers developed a math model that can predict the progression from nephritis, or kidney inflammation, to interstitial fibrosis, scarring in the kidney that current treatments cannot reverse. A kidney biopsy is the only existing way to reach a definitive diagnosis.
Yale Univ. associate professor of electrical engineering Minjoo Larry Lee has been awarded $2,540,000 to develop dual-junction solar cells that can operate efficiently at extreme temperatures above 750 F. In addition to converting a portion of the sunlight directly into electricity, the solar cells will use the remainder of the light to heat high-temperature fluids that can drive a steam turbine or be stored for later use.
No matter how many times it’s demonstrated, it’s still hard to envision bacteria as social, communicating creatures. But by using a signaling system called “quorum sensing,” these single-celled organisms radically alter their behavior to suit their population. In short, some bacteria “know” how many of them are present, and act accordingly.
Researchers at Massachusetts Institute of Technology (MIT) and Northeastern Univ. have equipped a robot with a novel tactile sensor that lets it grasp a USB cable draped freely over a hook and insert it into a USB port. The sensor is an adaptation of a technology called GelSight, which was developed at MIT, and first described in 2009.
In February 2014, President Obama called for a consortium of innovators to transform American industry through digital manufacturing. For this, the Digital Lab for Manufacturing was created. Learn how integrating design, development and manufacturing cuts costs.
By opening and closing their beaks, shorebirds drive food-containing liquid drops into their throats. Researchers have mimicked this phenomenon by building simple, fog-collecting, rectangular “beaks” out of glass plates connected by a hinge on one side. Providing a large surface area where beads of fog condense, the “beak” improved collection rates over alternatives by up to 900 times.
One sip of a perfectly poured glass of wine leads to an explosion of flavors in your mouth. Researchers in Denmark have now developed a nanosensor that can mimic what happens in your mouth when you drink wine. The sensor, which uses gold nanoparticles to act as a “mini-mouth”, measures how you experience the sensation of dryness in the wine.
Researchers from the Univ. of Cambridge have developed advanced molecular synthetic membranes, or “sieves”, which could be used to filter carbon dioxide and other greenhouse gases from the atmosphere. The sieves were made by heating microporous polymers using low levels of oxygen which, produces a tougher and far more selective membrane that is still relatively flexible.
For years, neuroscientists have been trying to develop tools that would allow them to clearly view the brain's circuitry in action. To get this complete picture, neuroscientists are working to develop a range of new tools to study the brain. Researchers at Caltech have developed one such tool that provides a new way of mapping neural networks in a living organism.
Fewer than half of all patients who are suspected of having a genetic disease actually receive a satisfactory diagnosis. To solve this problem, scientists have developed an innovative diagnostic procedure, called PhenIX, that combines the analysis of genetic irregularities with the patient's clinical presentation. The method involves a search for genes that cause disease and its related phenotypes to produce a short, testable list.
While freestanding graphene offers promise as a replacement for silicon and other materials in microprocessors and next-generation energy devices, much remains unknown about its mechanical and thermal properties. An international team of physicists, led by a research group at the Univ. of Arkansas, has recently discovered that heating can be used to control the curvature of ripples in freestanding graphene.
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