It’s broadly understood that the world’s oceans play a crucial role in the global-scale cycling and exchange of carbon between Earth’s ecosystems and atmosphere. Now scientists at Scripps Institution of Oceanography have taken a leap forward in understanding the microscopic underpinnings of these processes. The discovery involves “recycling” bacteria that play an important role in regulating the ocean’s storage of carbon dioxide.
Counterfeit or adulterated olive oil has been a...
Johns Hopkins Univ. scientists report that rats exposed to high-energy particles, simulating...
Researchers at Oak Ridge National Laboratory have developed a new and unconventional battery...
Physicists at the Univ. of Sydney have discovered a method of using microwaves to probe the sounds of a quantum dot, a promising platform for building a quantum computer. A quantum dot consists of a small number of electrons trapped in zero dimensions inside a solid.
The ability to control crystals with light and chemistry could lead to chameleon-style color-changing camouflage for vehicle bodies and other surfaces. Univ. of Michigan researchers discovered a template-free method for growing shaped crystals that allows for changeable structures that could appear as different colors and patterns.
Treating cadmium-telluride (CdTe) solar cell materials with cadmium-chloride improves their efficiency, but researchers have not fully understood why. Now, an atomic-scale examination of the thin-film solar cells led by Oak Ridge National Laboratory has answered this decades-long debate about the materials’ photovoltaic efficiency increase after treatment.
A fully functional quantum computer is one of the holy grails of physics. Unlike conventional computers, the quantum version uses qubits (quantum bits), which make direct use of the multiple states of quantum phenomena. When realized, a quantum computer will be millions of times more powerful at certain computations than today’s supercomputers.
Australian researchers are trying a novel way to boost the power of cochlear implants: They used the technology to beam gene therapy into the ears of deaf animals and found the combination improved hearing. The approach reported Wednesday isn't ready for human testing, but it's part of growing research into ways to let users of cochlear implants experience richer, more normal sound.
Combining theory and numerical simulations, researchers have resolved an enduring question in the theory of glasses by showing that their energy landscapes are far rougher than previously believed. The new model, which shows that molecules in glassy materials settle into a fractal hierarchy of states, unites mathematics, theory and several formerly disparate properties of glasses.
Newly published research shows that, when the quality of the U.K.’s scientific output is compared with that of its leading international competitor nations, the U.K.’s lead in physics comes despite a lack of investment relative to other scientific disciplines, such as the life sciences.
The importance of fizz, more technically known as effervescence, in sparkling wines and champagnes is not to be underestimated—it contributes to the complete sensory experience of a glass, or flute, of fine bubbly. A scientist has now closely examined the factors that affect these bubbles, and he has come up with an estimate of just how many are in each glass.
Like a hungry diner ripping open a dinner roll, a fuel cell catalyst that converts hydrogen into electricity must tear open a hydrogen molecule. Now researchers have captured a view of such a catalyst holding onto the two halves of its hydrogen feast. The view confirms previous hypotheses and provides insight into how to make the catalyst work better for alternative energy uses.
By combining the powers of two single-atom-thick carbon structures, researchers at the George Washington Univ.'s Micro-propulsion and Nanotechnology Laboratory have created a new ultracapacitor that is both high performance and low cost. The device capitalizes on the synergy brought by mixing graphene flakes with single-walled carbon nanotubes, two carbon nanostructures with complementary properties.
A team at Purdue Univ. has used gold nanoparticles to target and bind to fragments of genetic material known as BRCA1 messenger RNA splice variants, which can indicate the presence and stage of breast cancer. The number of these synthetic DNA “tails” in a cell can be determined in a living cell by examining the specific signal that light produces when it interacts with the gold nanoparticles.
In the quest to make sun power more competitive, researchers are designing ultra-thin solar cells that cut material costs. At the same time, they’re keeping these thin cells efficient by sculpting their surfaces with photovoltaic nanostructures that behave like a molecular hall of mirrors.
Rolls-Royce researchers came to SLAC National Accelerator Laboratory earlier this month as part of a team testing titanium and titanium alloys such as those used in engine parts, landing gear and other aircraft components. While the Rolls-Royce brand is also associated with luxury cars, this separate company, Rolls-Royce PLC, is a major global manufacturer of aircraft engines that power over 30 types of commercial aircraft.
This month's issue of R&D Magazine focuses on laboratory instrumentation, with our cover story on laboratory utilities for R&D facilities. Our editors also take a look at new spectrometer introductions, simulation software, particle analysis in drug delivery, 3-D printing technology, OEM optics for spectrometers and chromatography systems.
A bullet fired through a block of wood will slow down. In a similar way, ions are decelerated when they pass through a solid material: the thicker the material, the larger the energy loss will be. However, as recent experiments in Austria have shown, this picture breaks down in ultra-thin target materials, which only consist of a few layers of atoms.
Tesla Motors Inc. delivered its first eight electric sedans to customers in China on Tuesday and CEO Elon Musk said the company will build a nationwide network of charging stations and service centers as fast as it can. Customers received the first Model S sedans this week at a brief ceremony at Tesla's office in a Beijing industrial park, also the site of its first Chinese charging station.
Rechargeable lithium-ion batteries are key components for portable electronics, medical devices, industrial equipment and automobiles. They are light weight, provide high energy density and recharge without memory effects. Much research has been spent on improving product safety, lifecycle and power output over a range of high and low temperatures, yet understanding fundamental processes and degradation mechanism remains a challenge.
It's a familiar trope in science fiction: In enemy territory, activate your cloaking device. And real-world viruses use similar tactics to make themselves invisible to the immune system. Now scientists at Harvard Univ.'s Wyss Institute for Biologically Inspired Engineering have mimicked these viral tactics to build the first DNA nanodevices that survive the body's immune defenses.
A new study from North Carolina State Univ. and the Univ. of Toronto finds that people pay more attention to the upper half of their field of vision—a finding which could have ramifications for everything from traffic signs to software interface design.
Scientists are facing a number of barriers as they try to develop circuits that are microscopic in size, including how to reliably control the current that flows through a circuit that is the width of a single molecule. Recent work at the Univ. of Rochester may have solved this problem through the addition of a second, inert layer of molecules that can act like a plastic casing on the wires.
Of late, engineers have been paying more and more attention to nature’s efficiencies, such as the Lotus effect, which describes the way the Lotus plant uses hydrophobic surfaces to survive in muddy swamps. A researcher at Virginia Tech has developed a simpler two-step application process to create a superhydrophobic copper surface that leverages the Lotus effect.
What looked at first like an upside-down planet has instead revealed a new method for studying binary star systems, discovered by a Univ. of Washington (UW) student astronomer. Working with UW astronomer Eric Agol, doctoral student Ethan Kruse has confirmed the first “self-lensing” binary star system: one in which the mass of the closer star can be measured by how powerfully it magnifies light from its more distant companion star.
In the hands of some Rice Univ. senior engineering students, a fishing rod is more than what it seems. For them, it’s a way to help destroy blood clots that threaten lives. Branding themselves as “Team Evacuator,” five students have been testing a device to break up blood clots that form in the bladders of adult patients and currently have to be removed by suction through a catheter in the urethra.
Unlike healthy cells, cancer cells thrive when deprived of oxygen. Tumors in low-oxygen environments tend to be more resistant to therapy and spread more aggressively to other parts of the body. Measuring tumors’ oxygen levels could help doctors make decisions about treatments, but there’s currently no way to make such measurements. However, a new sensor developed at Massachusetts Institute of Technology could change that.
The ability to stick objects to a wide range of surfaces such as drywall, wood, metal and glass with a single adhesive has been the elusive goal of many research teams across the world, but now a team of Univ. of Massachusetts Amherst inventors describe a new, more versatile version of their invention, Geckskin, that can adhere strongly to a wider range of surfaces, yet releases easily, like a gecko's feet.
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