Wake up in the morning and stretch; your midsection narrows. Pull on a piece of plastic at separate ends; it becomes thinner. So does a rubber band. One might assume that when a force is applied along an axis, materials will always stretch and become thinner. Wrong.
Massachusetts Institute of Technology researchers have devised a new way to make complex liquid...
To power a car so it can travel hundreds of miles at a time, lithium-ion batteries of the future...
With antibiotic resistance on the rise, scientists are looking for innovative ways to combat...
Researchers at the Univ. of California, Riverside have invented a novel pretreatment technology that could cut the cost of biofuels production by about 30% or more by dramatically reducing the amount of enzymes needed to breakdown the raw materials that form biofuels.
Currently, there are treatments in which wastewater can flow out to the river or sea without causing any environmental problems. These technologies however entail high energy costs, mainly in aeration and pumping, and an elevated economic cost in treating the sludge left over from the treatment process.
Researchers at McGill Univ. have developed a new, low-cost method to build DNA nanotubes block-by-block, a breakthrough that could help pave the way for scaffolds made from DNA strands to be used in applications such as optical and electronic devices or smart drug delivery systems. Many researchers, including the McGill team, have previously constructed nanotubes using a method that relies on spontaneous assembly of DNA in solution.
Univ. of Tokyo researchers have developed a novel selective catalyst that allows the creation of several basic chemicals from biomass instead of petroleum. This discovery may lead to the use of plant biomass as a basic feedstock for the chemical industry. The new catalyst enables selective cleaving (hydrogenolysis) of carbon-oxygen (C-O) single bonds in phenols and aryl methyl ethers, two of the main components of lignin.
In recent years, scientists have found a surprising a connection between some people with autism and certain cancer patients: They have mutations in the same gene, one that codes for a protein critical for normal cellular health. Now scientists have reported in Biochemistry that the defects reduce the activity and stability of the protein. Their findings could someday help lead to new treatments for both sets of patients.
Pesticide sprays and baits are common tactics for managing pest ants. But sprays can have little long-term impact and carry environmental costs such as chemical contamination of soil and water sources. Water-storing crystals known as hydrogels can effectively deliver pesticide bait to invasive Argentine ants, quickly decimating a colony.
A new semiconductor compound is bringing fresh momentum to the field of spintronics, an emerging breed of computing device that may lead to smaller, faster, less power-hungry electronics. Created from a unique low-symmetry crystal structure, the compound is the first to build spintronic properties into a material that's stable at room temperature and easily tailored to a variety of applications.
Scientists have created a high-energy mid-infrared laser powerful enough to create shining filaments in the air. Such devices could be used to detect chemical substances in the atmosphere.
Chemical engineers have designed a new type of self-healing hydrogel that could be injected through a syringe. Such gels, which can carry one or two drugs at a time, could be useful for treating cancer, macular degeneration, or heart disease, among other diseases, the researchers say.
Terpenes and their derivatives exert important biological and pharmaceutical functions. Starting out from a few basic building blocks nature elegantly builds up complex structures. Chemically particularly challenging are bridged ring systems such as eucalyptol. Chemists at the Technical Univ. Munich have developed a catalyst that initiates the formation of such compounds.
Researchers have long sought alternatives to morphine that curb its side effects, including dependency, nausea and dizziness. Now, an experiment at SLAC National Accelerator Laboratory has supplied the most complete atomic-scale map of such a compound docked with a cellular receptor that regulates the body’s pain response and tolerance.
Lab automation systems are used in R&D laboratories for a wide range of operational applications and purposes. According to a recent reader survey performed by the editors of R&D Magazine in late-2014, the top three applications include to improve the accuracy of lab operations (selected by 61% of the readers), to improve lab productivity (58%) and to ensure the reliability of the lab operations (48%).
Scientists have used an x-ray laser at SLAC National Accelerator Laboratory to get the first glimpse of the transition state where two atoms begin to form a weak bond on the way to becoming a molecule. This fundamental advance, long thought impossible, will have a profound impact on the understanding of how chemical reactions take place.
Most of our medicine, plastics and synthetic fibers wouldn't exist without catalysts. And yet chemists don't fully understand how most catalysts work, and developing new catalysts often still depends on laborious trial-and-error. But in a new study, chemists captured enough data on the crucial steps in a reaction to accurately predict the structures of the most efficient catalysts.
A team of chemists, biochemists and mathematicians at the Univ. of Bristol have published a paper which explores how protein structures are stabilized. There are many forces that hold together the 3-D, functional structures of proteins. Despite considerable effort, understanding of these forces is still quite rudimentary.
People have been making rubber products from elastic bands to tires for centuries, but a key step in this process has remained a mystery. In a report, scientists have described this elusive part of rubber production that could have major implications for improving the material and its uses. Their findings, if used to improve tire performance, for example, could mean higher gas mileage for consumers and less air pollution.
Imagine being able to identify people likely to develop a particular disease - and then stop it before it starts.
“Antiaromatic compounds” is what chemists call a class of ring molecules which are extremely instable. Because they exist for mere split seconds, they can only be detected by extremely demanding, ultra-fast methods. Researchers from the Cluster of Excellence RESOLV at Ruhr-Univ. Bochum have succeeded in isolating the antiaromatic fluorenyl cation at extremely low temperatures in water ice.
Treated buckyballs not only remove valuable but potentially toxic metal particles from water and other liquids, but also reserve them for future use, according to scientists at Rice Univ. The Rice lab of chemist Andrew Barron has discovered that carbon-60 fullerenes (buckyballs) that have gone through the chemical process known as hydroxylation aggregate into pearl-like strings as they bind to and separate metals from solutions.
Imagine printing out molecules that can respond to their surroundings. A research project at the Univ. of Washington merges custom chemistry and 3D printing. Scientists created a bone-shaped plastic tab that turns purple under stretching, offering an easy way to record the force on an object.
A novel approach to growing nanowires promises a new means of control over their light-emitting and electronic properties. In a recent issue of Nano Letters, scientists from Lawrence Berkeley National Lab demonstrated a new growth technique that uses specially engineered catalysts. These catalysts, which are precursors to growing the nanowires, have given scientists more options than ever in turning the color of light-emitting nanowires.
Sandia National Laboratories researchers are the first to directly measure hydroperoxyalkyl radicals, a class of reactive molecules denoted as “QOOH”, that are key in the chain of reactions that controls the early stages of combustion. This breakthrough has generated data on QOOH reaction rates and outcomes that will improve the fidelity of models used by engine manufacturers to create cleaner and more efficient cars and trucks.
Unlike slow and steady batteries, supercapacitors gulp up energy rapidly and deliver it in fast, powerful jolts. A growing array of consumer products is benefiting from these energy-storage devices, reports Chemical & Engineering News, with cars and trucks, and their drivers, poised to be major beneficiaries.
A team of Caltech chemists has discovered a method for producing a group of silicon-containing organic chemicals without relying on expensive precious metal catalysts. Instead, the new technique uses as a catalyst a cheap, abundant chemical that is commonly found in chemistry labs around the world, potassium tert-butoxide, to help create a host of products ranging from new medicines to advanced materials.
As many places in the U.S. and Europe increasingly turn to biomass rather than fossil fuels for power and heat, scientists are focusing on what this trend might mean for air quality and people’s health. One study on wood-chip burners’ particulate emissions, which can cause heart and lung problems, appears in Energy & Fuels. The scientists say the findings could help manufacturers reduce the negative impact of this fuel in the future.
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