From research stations drifting on ice floes to high-tech aircraft radar, scientists have been tracking the depth of snow that accumulates on Arctic sea ice for almost a century. Now that people are more concerned than ever about what is happening at the poles, research led by the Univ. of Washington and NASA confirms that snow has thinned significantly in the Arctic, particularly on sea ice in western waters near Alaska.
A team of materials chemists, polymer scientists, device physicists and others at the Univ. of Massachusetts Amherst report a breakthrough technique for controlling molecular assembly of nanoparticles over multiple length scales that should allow faster, cheaper, more ecologically friendly manufacture of organic photovoltaics and other electronic devices.
Surgical and trauma patients are at significant risk for morbidity and mortality from bleeding and/or leaking bodily fluids. With the number and complexity of surgeries rising, so is the need for better hemostatic agents to stop bleeding as quickly as possible. The history of approaches to hemostasis goes back to when people simply used their hands or a tool to apply to a wound to stop bleeding.
Imagine your religious beliefs lied between you and your life. This is what happened in mid-April to Julie Penoyer, a 50-year-old U.K. heart patient and Jahovah’s Witness. Following her religious beliefs, her request when undergoing open-heart surgery was to not receive donated blood products.
A catalyst made from a foamy form of copper has vastly different electrochemical properties from catalysts made with smooth copper in reactions involving carbon dioxide, a new study shows. The research, by scientists in Brown Univ.’s Center for the Capture and Conversion of CO2, suggests that copper foams could provide a new way of converting excess CO2 into useful industrial chemicals.
A Purdue Univ. student team has designed, built and tested a critical part of a new a rocket engine as part of a NASA project to develop spacecraft technologies needed to land on the moon, Mars and other cosmic venues. The students are making a central part of the new engine—called the thrust chamber or combustor—as part of NASA's Project Morpheus.
A Rice Univ. laboratory has provided proof that foam may be the right stuff to maximize enhanced oil recovery (EOR). In tests, foam pumped into an experimental rig that mimicked the flow paths deep underground proved better at removing oil from formations with low permeability than common techniques involving water, gas, surfactants or combinations of the three.
Scientists have known for decades that cancer can be caused by genetic mutations, but more recently they have discovered that chemical modifications of a gene can also contribute to cancer. These alterations, known as epigenetic modifications, control whether a gene is turned on or off. Analyzing these modifications can provide important clues to the type of tumor a patient has, and how it will respond to different drugs.
R&D Magazine introduced its annual Scientist of the Year Award winner, Dr. Karl Deisseroth, and its Innovator of the Year Award winner, Dr. Hugh Herr. As R&D Magazine's 49th Scientist of the Year Award winner, Dr. Deisseroth is one of the United States’ leading researchers in the rapidly growing field of optogenetics, having invented several new technologies in support of efforts to understand neural functions in the human brain.
Scientists hunting for life beyond Earth have discovered more than 1,800 planets outside our solar system, or exoplanets, in recent years, but so far, no one has been able to confirm an exomoon. Now, physicists from The Univ. of Texas at Arlington believe following a trail of radio wave emissions may lead them to that discovery.
To make a better optical fiber for transmitting laser beams, the first idea that comes to mind is probably not a nice long hydrogen bath. And yet, scientists have known for years that hydrogen can alter the performance of optical fibers, which are often used to transmit or even generate laser light in optical devices. Researchers at NIST have put this hydrogen “cure” to practical use.
Nature’s artistic and engineering skills are evident in proteins. Scientists at Rice Univ. have now employed their unique theories to show how the interplay between evolution and physics developed these skills. The team used computer models to show that the energy landscapes that describe how nature selects viable protein sequences over evolutionary timescales employ the same forces as those that allow proteins to fold.
Plasmodium falciparum, the parasite that causes malaria, has proven notoriously resistant to scientists’ efforts to study its genetics. It can take up to a year to determine the function of a single gene, which has slowed efforts to develop new, more targeted drugs and vaccines. Biological engineers have now demonstrated a new genome-editing technique that can disrupt a single parasite gene in a matter of weeks.
Visual impairment comes in many forms, and it's on the rise in America. A Univ. of Cincinnati experiment aimed at this diverse and growing population could spark development of advanced tools to help all the aging baby boomers, injured veterans, diabetics and white-cane-wielding pedestrians navigate the blurred edges of everyday life.
Univ. College London scientists have discovered a new method to efficiently generate and control currents based on the magnetic nature of electrons in semiconducting materials, offering a new way to develop a new generation of electronic devices. One promising approach to developing new technologies is to exploit the electron’s tiny magnetic moment, or spin.
It’s estimated that more than half of U.S. energy is wasted as heat. Mostly, this waste heat simply escapes into the air. But that’s beginning to change, thanks to thermoelectric innovators such as Massachusetts Institute of Technology’s Gang Chen. Thermoelectric materials convert temperature differences into electric voltage.
Analytical chemist, author and R&D Magazine’s longest-tenured columnist and contributing editor Frederic B. Jueneman passed away recently in his hometown of Newark, Calif. An industrial analytical chemist by trade, Jueneman’s columns, full of fresh and insightful ideas, earning a dedicated following among R&D’s readership.
Some of the most damaging brain diseases can be traced to irregular blood delivery in the brain. Now, Stanford Univ. chemists have employed lasers and carbon nanotubes to capture an unprecedented look at blood flowing through a living brain. The technique was developed for mice but could one day be applied to humans, potentially providing vital information in the study of stroke and migraines.
Physicists at NIST have demonstrated a pas de deux of atomic ions that combines the fine choreography of dance with precise individual control. NIST’s ion duet is a component for a flexible quantum simulator that could be scaled up in size and configured to model quantum systems of a complexity that overwhelms traditional computer simulations.
Researchers at Yale School of Medicine have discovered a new drug compound that reverses the brain deficits of Alzheimer’s disease in an animal model. The compound, TC-2153, inhibits the negative effects of a protein called STtriatal-Enriched tyrosine Phosphatase (STEP), which is key to regulating learning and memory. These cognitive functions are impaired in Alzheimer’s.
Researchers at SLAC National Accelerator Laboratory have developed a laser-timing system that could allow scientists to take snapshots of electrons zipping around atoms and molecules. Taking timing to this new extreme of speed and accuracy at the Linac Coherent Light Source x-ray laser will make it possible to see the formative stages of chemical reactions.
Sequencing the genomes of tumor cells has revealed thousands of mutations associated with cancer. One way to discover the role of these mutations is to breed a strain of mice that carry the genetic flaw—but breeding such mice is an expensive, time-consuming process. Now, Massachusetts Institute of Technology researchers have found an alternative.
The use of an experimental drug to treat two Americans diagnosed with Ebola is raising ethical questions about who gets first access to unproven new therapies for the deadly disease. But some health experts fear debate over extremely limited doses will distract from tried-and-true measures to curb the growing outbreak.
MIT engineers have fabricated a new elastic material coated with microscopic, hairlike structures that tilt in response to a magnetic field. Depending on the field’s orientation, the microhairs can tilt to form a path through which fluid can flow; the material can even direct water upward, against gravity. Researchers say structures may be used in windows to wick away moisture.
In 2012, a team of researchers in London imaged, for the first time, the structure of the DNA double helix. James Watson and Francis Crick discovered DNA 60 years ago by laboriously studying x-ray diffraction images of millions of DNA molecules. However, Dr. Bart Hoogenboom and Dr. Carl Leung used atomic force microscopy (AFM) to directly “feel” the molecule’s structure in a fraction of the time.