Cold-forming
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New ceramics on the way
phys.org
crumpletronics
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phys.org
Coal-tronics and more
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phys.org
phys.org
phys.org
Flat lens
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Chemical generation and fouling prevention
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phys.org
phys.org
phys.org
phys.org
phys.org
phys.org
phys.org
Tetraneutrons
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Asbestos
phys.org
Med-x today
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medicalxpress.com
phys.org
medicalxpress.com
Adhesion
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phys.org
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phys.org
phys.org
Short circuits
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Reducing cavitation
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Beam welding
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New class of polymer lubricants could revolutionize the cold forming of metals
Metals can be processed into wires by cold forming—an extremely complex process. However, the lubricants needed for this often do not meet the requirements of the end processors.
New ceramics on the way
Computational method discovers hundreds of new ceramics for extreme environments
If you have a deep-seated, nagging worry over dropping your phone in molten lava, you're in luck. A research team led by materials scientists at Duke University has developed a method for rapidly discovering a new class of materials with heat and electronic tolerances so rugged that they could...
crumpletronics
A butterfly-inspired design to create crumple-recoverable electronics
Over the past decades, electronics engineers have created devices of various shapes and with increasingly sophisticated designs. This includes electronics that can be folded onto themselves, such as foldable phones, along with various other compressible devices.
Piezo composites with carbon fibers for motion sensors
An international research group has engineered a novel, high-strength flexible device by combining piezoelectric composites with unidirectional carbon fiber (UDCF), an anisotropic material that provides strength only in the direction of the fibers. The new device transforms kinetic energy from...
A novel avenue for engineering 2D MXene family via precious metals atomic layer deposition techniques
A team of researchers, led by Professor Soo-Hyun Kim in the Graduate School of Semiconductors Materials and Devices Engineering and the Department of Materials Science and Engineering at UNIST has made significant progress in precisely controlling precious metals (Ru, Ir, Pt, Pd) incorporation...
Coal-tronics and more
Better microelectronics from coal
Coal is an abundant resource in the United States that has, unfortunately, contributed to climate change through its use as a fossil fuel. As the country transitions to other means of energy production, it will be important to consider and reevaluate coal's economic role.
Researchers create first functional semiconductor made from graphene
Researchers at the Georgia Institute of Technology have created the world's first functional semiconductor made from graphene, a single sheet of carbon atoms held together by the strongest bonds known. Semiconductors, which are materials that conduct electricity under specific conditions, are...
Researchers boost signal amplification in perovskite nanosheets
Perovskite materials are still attracting a lot of interest in solar cell applications. Now, the nanostructures of perovskite materials are being considered as a new laser medium. Over the years, light amplification in perovskite quantum dots has been reported, but most of the works present...
Non-toxic quantum dots pave the way towards CMOS shortwave infrared image sensors for consumer electronics
Invisible to our eyes, shortwave infrared (SWIR) light can enable unprecedented reliability, function and performance in high-volume, computer vision first applications in service robotics, automotive and consumer electronics markets.
Quantum thermal transistors: Harnessing quantum measurement and feedback
Researchers are actively engaged in the dynamic manipulation of quantum systems and materials to realize significant energy management and conservation breakthroughs.
Flat lens
Nanostructured flat lens uses machine learning to 'see' more clearly, while using less power
A front-end lens, or meta-imager, created at Vanderbilt University can potentially replace traditional imaging optics in machine-vision applications, producing images at higher speed and using less power.
Chemical generation and fouling prevention
Research team combines two catalysts to make common chemical production safer, more environmentally friendly
The chemical industry has long been shadowed by unwelcome images of billowing smokestacks and pipes discharging toxic effluent. Modern manufacturing practices have done much to mitigate the industry's environmental impact, but there remains room for improvement.
Research aims to convert greenhouse gas into valuable products with electricity
Researchers at Case Western Reserve University are developing ways to convert waste into fuels and other products, using processes that are energy efficient and powered by renewable sources.
Developments in dual-atom catalysts make renewable energy sources more efficient
The rapidly developing field of green energy constantly seeks improvements, and recent advances in dual-atom catalysts hold the potential to revolutionize energy conversion technologies.
Chemical synthesis using titanium dioxide: An eco-friendly and innovative approach
Heterocyclic compounds are organic molecules with a ring structure comprising at least two or more elements. In most cases, these rings are composed of carbon atoms along with one or more other elements such as nitrogen, oxygen, or sulfur. They are highly sought after as raw materials in the...
Scientists discover new method for generating metal nanoparticles to use as catalysts
A team of researchers from the ITACA Institute of the Universitat Politècnica de València (UPV) and the Research Institute of Chemical Technology, a joint center of the Spanish National Research Council (CSIC) and the UPV, has discovered a new method for the manufacture of metal nanocatalysts...
In a world run by catalysts, why is optimizing them still so tough?
We depend on catalysts to turn our milk into yogurt, to produce Post-It notes from paper pulp, and to unlock renewable energy sources like biofuels. Finding optimal catalyst materials for specific reactions requires laborious experiments and computationally intensive quantum chemistry calculations.
New crystalline sponge method proposed for undergraduate courses
The crystal sponge technology is a revolutionary technique, which enables the direct and precise determination of the molecular structure of liquid and gas targets. The technique uses a special network complex to selectively absorb liquid or gas target molecules and order them over long...
Microtexturing soft materials to remove aqueous microfoulants
The process of crystallization fouling is a phenomenon where scale forms on surfaces. It is widespread in nature and technology and affects the energy and water industries. Despite previous attempts, rationally designed surfaces with intrinsic resistance remain elusive due to a lack of...
Tetraneutrons
Hunting for elusive tetraneutrons with thermal fission
The possible emission rate of particle-stable tetraneutron, a four-neutron system whose existence has been long debated within the scientific community, has been investigated by researchers from Tokyo Tech. They looked into tetraneutron emission from thermal fission of 235U by irradiating a...
Asbestos
Size and shape of inhaled asbestos nanofibers may be exclusively responsible for pulmonary fibrosis
The pathogenic potential of inhaling the inert fibrous nanomaterials used in thermal insulation (such as asbestos or fiberglass) is actually connected not to their chemical composition, but instead to their geometrical characteristics and size. The reason for this is the inability of the...
Med-x today
Aided by AI, new catheter design helps prevent bacterial infections
Bacteria are remarkably good swimmers—a trait that can be detrimental to human health. One of the most common bacterial infections in a health care setting comes from bacteria entering the body through catheters, thin tubes inserted in the urinary tract. Though catheters are designed to draw...
Treating tuberculosis when antibiotics no longer work
Researchers have identified new antibiotic molecules that target Mycobacterium tuberculosis and make it less pathogenic for humans. In addition, some of the discovered substances may allow for a renewed treatment of tuberculosis with available medications—including strains of the bacterium that...
Evolutionary 'U-turn' may mitigate antibiotic resistance, study finds
In a scientific breakthrough, Monash University researchers have discovered a revolutionary "U-turn" in the evolution of antibiotic resistance, challenging the widely accepted notion that traits once developed are irreversible.
ChatGPT found to have very low success rate in diagnosing pediatric case studies
A trio of pediatricians at Cohen Children's Medical Center, in New York, has found ChatGPT's pediatric diagnostic skills to be considerably lacking after asking the LLM to diagnose 100 random case studies. In their study, reported in the journal JAMA Pediatrics, Joseph Barile, Alex Margolis and...
Adhesion
Versatile fibers offer improved energy storage capacity for wearable devices
The latest wearable devices, such as Samsung's Galaxy Ring and Apple's Vision Pro, are taking health care a step further and even enabling people to work virtually. Given the characteristics of wearable devices that require them to be small and lightweight, there is an inevitable limitation on...
New device harnesses sweat power for fitness trackers
A small amount of sweat could be all that's needed to power fitness trackers of the future, new research led by Deakin University's Institute for Frontier Materials (IFM) reveals.
Researchers use machine learning to create a fabric-based touch sensor
A new study from NC State University combines three-dimensional embroidery techniques with machine learning to create a fabric-based sensor that can control electronic devices through touch. The paper is published in the journal Device.
New tagging method provides bioadhesive interface for marine sensors on diverse, soft and fragile species
Tagging marine animals with sensors to track and study their movements can provide researchers with important environmental and behavioral information, including energy usage, habitat changes, and migration patterns. But existing techniques to attach sensors currently largely rely on invasive...
'One ring to rule them all': How actin filaments are assembled by formins
Actin is a highly abundant protein that controls the shape and movement of all our cells. Actin achieves this by assembling into filaments, one actin molecule at a time. The proteins of the formin family are pivotal partners in this process: positioned at the filament end, formins recruit new...
Short circuits
A new light on arc-faults: Enhancing electrical fire safety
An arc-fault is an electrical discharge between two conductors due to poor contact. These discharges cause sparks that can reach temperatures as high as 1000 degrees Celsius, making them one of the major causes of electrical fires. In the United States, the National Fire Protection Association...
Reducing cavitation
Bubble simulation: Model improves prediction of cavitation nuclei
Small gas bubbles that form and collapse in a liquid—a process known as cavitation—can cause big problems for equipment like ship propellers. Imploding bubbles create noise and vibration, interfering with acoustic sensors, and even erode metal over time.
Beam welding
Korean researchers achieve local production of electron beam welding system
Dr. Han Seong-Tae's team at KERI's Industry Applications Research Division has developed the core technology of "electron guns," the heart of "electron beam welders," which had been dependent on imports for more than 99%.
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