What new materials are there?

publiusr · 25 January 2025

Stronger alloys and adhesives

Supranano engineering enhances strength and ductility of structural materials

Building on their work on the first-ever supranano magnesium alloy, a research team led by City University of Hong Kong (CityUHK) has demonstrated how supranano engineering can lead to higher strength and higher ductility in bulk structural materials.

phys.org

Superalloys resist wear at nearly forge-level heat using new process

Finding lubricants that work at exceptionally high temperatures challenges researchers and industries alike. A Virginia Tech team may have uncovered a promising candidate by happenstance: transition metal spinel oxides formed on nickel-chromium-based superalloys.

phys.org

Researchers use machine learning to ensure safe structural design of steel columns

In the quest for stronger, more resilient buildings and infrastructure, engineers are turning to innovative solutions, such as concrete-filled steel tube columns (CFST) strengthened with carbon fiber-reinforced polymer (CFRP). These advanced composite structures combine the robust load-bearing...

techxplore.com

MXene-enhanced epoxy promises safer, more durable industrial applications

Two-component epoxies, which require mixing resin and curing agent before use, often suffer from issues such as mixing ratio errors, limited working times, and inconsistent curing. Additionally, they must be used immediately after mixing, leading to wasted residue.

phys.org

laser welding

https://techxplore.com/news/2025-01-hump-boost-high-laser-welding.html

smart fabrics and surfaces

https://phys.org/news/2025-01-smart-fabric-30c-minutes-sun.html

https://phys.org/news/2025-01-gen-fibers-smart-textile-pressure.html

https://techxplore.com/news/2025-01-yarn-battery-prototype-seawater-power.html

https://techxplore.com/news/2025-01-versatile-shifting-materials-possibilities-soft.html

https://phys.org/news/2025-01-fuzzy-flannel-pajamas-incredibly-flammable.html

https://phys.org/news/2025-01-paper-based-sensors-eco-friendly.html

no-foul for shipping

https://phys.org/news/2025-01-ship-slime-biofilm-growth-enable.html

stealth material and other finds

https://phys.org/news/2025-01-electromagnetic-material-shifting-chameleon.html

https://phys.org/news/2025-01-newly-fabricated-crystals-interactions-high.html

https://phys.org/news/2025-01-harnessing-electromagnetic-quantum-materials-wireless.html

optics

https://phys.org/news/2025-01-compact-gen-photonics.html

https://techxplore.com/news/2025-01-neural-networks-machine-vision-conditions.html

https://phys.org/news/2025-01-perovskite-growth-method-ultrahigh-resolution.html

https://phys.org/news/2025-01-frontier-electron-dynamics-imaging-attosecond.html

https://phys.org/news/2025-01-scientists-harness-power-layered-crystals.html

https://techxplore.com/news/2025-01-scientists-digitally-iridescent-bird-feathers.html

Firefighting

https://techxplore.com/news/2025-01-electricity-dual-purpose-sensor.html

Plastic supercapacitors

https://techxplore.com/news/2025-01-plastic-supercapacitors-energy-storage-problems.html

https://techxplore.com/news/2025-01-doped-transparent-conductor-polymer-electrochromic.html

Clean hydrogen via microwaves

https://techxplore.com/news/2025-01-hydrogen-minutes-microwaves-energy-faster.html

Heat for reactions

https://phys.org/news/2025-01-infrared-chemical-reactions.html

Boron and water

https://phys.org/news/2025-01-ceramic-catalyst-sodium-boron-sustainable.html

https://techxplore.com/news/2025-01-purification-technology-seawater-tons-chemicals.html

https://phys.org/news/2025-01-algae-based-method-purifies-chemically.html

mud

https://techxplore.com/news/2025-01-good-mud.html

publiusr · 31 January 2025

An overlooked nuclear force

An overlooked nuclear force helps keep matter stable, study reveals

Researchers from Kyushu University, Japan have revealed how a special type of force within an atom's nucleus, known as the three-nucleon force, impacts nuclear stability. The study, published in Physics Letters B, provides insight into why certain nuclei are more stable than others and may help...

phys.org

Material memory

Materials can remember a sequence of events in an unexpected way

Many materials store information about what has happened to them in a sort of material memory, like wrinkles on a once crumpled piece of paper. Now, a team led by Penn State physicists has uncovered how, under specific conditions, some materials seemingly violate underlying mathematics to store...

phys.org

Advanced method reveals how natural materials behave across multiple length scales

A research group from Chalmers and the MAX IV Laboratory has developed a new method that provides insights into how natural materials, such as wood-based systems, behave across multiple length scales. By combining several advanced techniques, this study opens great possibilities for future...

techxplore.com

Using achiral hard banana-shaped particles to assemble skyrmions and blue phases

A research team has discovered that achiral hard banana-shaped particles can spontaneously form exotic structures like skyrmions and blue phase III phases. Skyrmions are tiny vortex-like structures found in various condensed-matter systems, such as helical ferromagnets and liquid crystals. Blue...

phys.org

Heat engine advancement

Rethinking Carnot: Scientists overcome traditional power-efficiency trade-off

Challenging centuries-old assumptions about thermodynamics, a new study in published in Physical Review Letters has shown that it is theoretically possible to design a heat engine that achieves maximum power output while approaching Carnot efficiency.

phys.org

Challenging centuries-old assumptions about thermodynamics, a new study in published in Physical Review Letters has shown that it is theoretically possible to design a heat engine that achieves maximum power output while approaching Carnot efficiency.

Quantum theory and thermodynamics: No contradiction with new entropy definition, study says

It is one of the most important laws of nature that we know: The famous second law of thermodynamics says that the world gets more and more disordered when random chance is at play. Or, to put it more precisely: that entropy must increase in every closed system.

phys.org

Reefers

Your fridge still uses tech from the 50s, but scientists have an update

Researchers report on Jan. 30 in the journal Joule that a more efficient and environmentally friendly form of refrigeration might be on the horizon. The new technology is based on thermogalvanic cells that produce a cooling effect by way of a reversible electrochemical reaction.

techxplore.com

Concrete and radiation

Aging reactors: For the first time, researchers verify the effect of radiation on concrete expansion

It's been known for some time that radiation impacts the structural integrity of concrete. However, until now the details of this were unknown. Researchers, including those from the University of Tokyo, can finally demonstrate what properties of concrete affect its structural characteristics...

techxplore.com

new polymer

Animal footpads inspire a polymer that sticks to ice

A solution to injuries from slips and falls may be found underfoot—literally. The footpads of geckos have hydrophilic (water-loving) mechanisms that allow the little animals to easily move over moist, slick surfaces.

phys.org

Aluminum

Improving the range of electric vehicles using aluminum

There are many electric vehicles in Norway, and each contains many electrical conductors. These electrical conductors contribute significantly to the overall weight of the vehicles.

techxplore.com

Acoustics, Kelvin waves and vortices

New acoustic wave phenomenon discovered

A unique propagation phenomenon of acoustic waves has been discovered, paving the way for developing advanced communication technologies using acoustic devices.

phys.org

Superfluid spirals: Scientists control Kelvin waves for first time

In a new study published in Nature Physics, researchers have developed the first controlled method for exciting and observing Kelvin waves in superfluid helium-4.

phys.org

lasers/optics

Laser surface texturing can boost lightweight vehicle design and lower emissions

A team of researchers from Seoul National University of Science and Technology has uncovered a promising method to enhance the strength and durability of joints in lightweight vehicle design. By exploring laser surface texturing (LST) techniques on galvannealed advanced high-strength steel...

techxplore.com

Coupled semiconductor lasers generate novel optical patterns, enabling new spectroscopy techniques

The physical interaction between two or more systems, also known as coupling, can give rise to unique and unexpected effects. In the field of optics, coupled light sources (e.g., lasers) can influence each other, producing complex light patterns that cannot be emitted by individual...

phys.org

Nonlinear optical crystal for ultraviolet lasers remains remarkably stable under extreme pressure

Researchers from Oakland University have made a significant breakthrough in the field of optical materials, unveiling the exceptional capabilities of Ba₃(ZnB₅O₁₀)PO₄ (BZBP). Although this transparent crystal closely resembles ordinary window glass, it exhibits extraordinary properties that set...

phys.org

Plasma technique doubles etch rate for 3D NAND flash memory

To store ever more data in electronic devices of the same size, the manufacturing processes for these devices need to be studied in greater detail. By investigating new approaches to making digital memory at the atomic scale, researchers engaged in a public-private partnership are aiming to...

phys.org

Light-twisting materials created from nano semiconductors could be a game-changer for optics

Cornell scientists have developed a novel technique to transform symmetrical semiconductor particles into intricately twisted, spiral structures—or "chiral" materials—producing films with extraordinary light-bending properties.

phys.org

AI combined with holograms creates an uncrackable optical encryption system

As the demand for digital security grows, researchers have developed a new optical system that uses holograms to encode information, creating a level of encryption that traditional methods cannot penetrate. This advance could pave the way for more secure communication channels, helping to...

techxplore.com

Optical levitation traps nanospheres, revealing quantum-classical crossover

An article published in the journal Optica describes the development of a new experimental device that explores the boundary between classical and quantum physics, allowing the simultaneous observation and investigation of phenomena from both worlds.

phys.org

sensors

Innovative sensors for wearables could offer real-time alerts for hazardous gases

A transdisciplinary team of AMBER and CRANN researchers from the School of Chemistry at University College Cork (UCC) and the School of Physics at Trinity College Dublin (TCD) has developed sensor technology for wearable air quality monitors that alert individuals of their exposure to hazardous...

phys.org

A hearing aid for … your nose? Feedback loop in olfactory system helps brain adapt to stimuli changes

Kaboom! The first time most of us hear the sound of an explosion is in the movies. Encountering the sound in the real world—even at a distance—has a profoundly different effect. Why? It's all about context. How we react to sounds and other sensory stimuli depends on how they're presented. We...

medicalxpress.com

Atoms that measure magnetic fields could lead to new quantum sensors

A team of physicists and engineers at the University of Colorado Boulder has discovered a new way to measure the orientation of magnetic fields using what may be the tiniest compasses around—atoms.

phys.org

Ultrafast imaging advance tracks dark excitons precisely in time and space

How can the latest technology, such as solar cells, be improved? An international research team led by the University of Göttingen is helping to find answers to questions like this with a new technique. For the first time, the formation of tiny, difficult-to-detect particles—known as dark...

phys.org

fluids

Accidental discovery of identical oil lenses offers insights into emulsions on fluid surfaces

A team of researchers from Universidad Carlos III de Madrid (UC3M) has developed an innovative technique that allows the production of regular oil lenses of uniform size on the surface of water in a simple and reproducible fashion. The technique will facilitate the study of the behavior of oily...

phys.org

Unified model scales pressure fluctuation in an accelerated liquid

A research team from Japan has developed a unified model to scale the transitional pressure development in a one-dimensional flow. This achievement provides a better understanding of how pressure fields build up in the confined fluid system for various acceleration situations, which might be...

phys.org

Misc

Generating electricity from tacky tape: Follow-up research offers improved version

Zaps of static electricity might be a wintertime annoyance, but to certain scientists, they represent an untapped source of energy. Using a device called a triboelectric nanogenerator (TENG), mechanical energy can be converted into electrical energy using triboelectric effect static. Many TENGs...

phys.org

A new experimental system to bring quantum technologies closer to students

The world of quantum physics is experiencing a second revolution, which will drive an exponential leap in the progress of computing, the internet, telecommunications, cybersecurity and biomedicine.

phys.org

publiusr · 3 February 2025

I saw this new article just today at phys'org

"Metal alloy shows practically no thermal expansion over extremely large temperature interval."

Metal alloy shows practically no thermal expansion over extremely large temperature interval

Most metals expand when their temperature rises. The Eiffel Tower, for example, is about 10 to 15 centimeters taller in summer than in winter due to its thermal expansion. However, this effect is extremely undesirable for many technical applications.

phys.org

--from Dr. Khmelevskyi at TU Vien (Vienna).

New tech

Promising new class of high-temperature superconductors achieves stability at room pressure

Researchers have made a significant step in the study of a new class of high-temperature superconductors: creating superconductors that work at room pressure. That advance lays the groundwork for deeper exploration of these materials, bringing us closer to real-world applications such as...

phys.org

Researchers uncover 1D-like spin behavior in a triangular molecular lattice, challenging traditional views

Quantum spin liquids (QSLs) are fascinating and mysterious states of matter that have intrigued scientists for decades. First proposed by Nobel laureate Philip Anderson in the 1970s, these materials break the conventional rules of magnetism by never settling into a stable magnetic state, even at...

phys.org

Self-powered sensor can generate electricity and light simultaneously using only movement

DGIST research teams have developed a self-powered sensor that uses motion and pressure to generate electricity and light simultaneously. This battery-free technology is expected to be used in various real-life applications, such as disaster rescue, sports, and wearable devices.

techxplore.com

Printable molecule-selective nanoparticles enable mass production of wearable biosensors

The future of medicine may very well lie in the personalization of health care—knowing exactly what an individual needs and then delivering just the right mix of nutrients, metabolites, and medications, if necessary, to stabilize and improve their condition. To make this possible, physicians...

phys.org

Neutron scattering uncovers spiral magnetic structure in layered perovskites

Multiferroic materials, in which electric and magnetic properties are combined in promising ways, will be the heart of new solutions for data storage, data transmission, and quantum computers. Meanwhile, understanding the origin of such properties at a fundamental level is key for developing...

phys.org

Spinning or not spinning? Experts discuss controversies of Sr₂RuO₄'s unusual superconductivity

Superconductors can carry electricity without losing energy, a superpower that makes them invaluable for a range of sought-after applications, from maglev trains to quantum computers. Generally, this comes at the price of having to keep them extremely cold, an opportunity cost that has...

phys.org

Ice

Pushing the frontiers of frozen water: Computer simulations examine effects of shear on medium-density amorphous ice

Water is ubiquitous and seemingly ordinary, possessing no distinct color or odor. Though we often take water for granted, it is by no means a simple substance. As a consequence of its chemical properties, H₂O is one of the most incredible substances, able to form into 20 known separate...

phys.org

living materials

Customized living materials: Genetic tweaks enable precise control

Rice University researchers have revealed novel sequence-structure-property relationships for customizing engineered living materials (ELMs), enabling more precise control over their structure and how they respond to deformation forces like stretching or compression.

phys.org

'Living' electrodes breathe new life into traditional silicon electronics

High-speed electronic devices that do not use much power are useful for wireless communication. High-speed operation has traditionally been achieved by making devices smaller, but as devices become smaller, fabrication becomes increasingly difficult.

techxplore.com

A novel biomaterial for regenerative medicine: Scientists develop acellular nanocomposite living hydrogels

A biomaterial that can mimic certain behaviors within biological tissues could advance regenerative medicine, disease modeling, soft robotics and more, according to researchers at Penn State.

phys.org

Rhinocrates · 5 February 2025

As automotive manufacturers look to create more captivating and comfortable cabin environments, innovative sustainable materials could offer a win-win solution.

https://www.autoblog.com/news/sustainable-materials-are-sparking-joy-in-new-cars

publiusr · 7 February 2025

Graphite

Unlocking graphite's potential: Sliding layers for advanced material properties

Can copper be turned into gold? For centuries, alchemists pursued this dream, unaware that such a transformation requires a nuclear reaction. In contrast, graphite—the material found in pencil tips—and diamond are both composed entirely of carbon atoms; the key difference lies in how these atoms...

phys.org

Metals and explosives

Quantifying metal strength uncertainty in high-explosives models

For the first time, a team of researchers at Lawrence Livermore National Laboratory (LLNL) quantified and rigorously studied the effect of metal strength on accurately modeling coupled metal/high explosive (HE) experiments, shedding light on an elusive variable in an important model for national...

phys.org

268 new alloys: AI speeds up search for aerospace materials

Skoltech and MIPT researchers have sped up the search for high-performance metal alloys for the aerospace industry, mechanical engineering, and electronics. The team's machine learning-driven approach serves as a fast-track way to select promising alloy compositions for experimenters to test in...

techxplore.com

Clean-up

A material used to clean household aquariums offers a simple solution to break down forever chemicals

A University of Missouri researcher has discovered a new method to remove so-called "forever chemicals" from our drinking water.

phys.org

Specialized sponge can suck up stormwater pollution

As more waterways contend with algae blooms and pollution caused by minerals from agricultural runoff and industrial manufacturing processes, new methods to remove pollutants like phosphate, copper and zinc are emerging across fields.

techxplore.com

Sustainable plant-based membrane works without fossil fuel materials and toxic solvents

They are used in cleaning our drinking water, treating sewage, processing foods and keeping pharmaceuticals safe—membranes are a crucial part of everyday life.

phys.org

Q&A: Photoproduction creates medicine from waste

The Kobe University start-up Photo-on-Demand Chemical Co. Ltd. demonstrated that it can produce methane from sewage to refine it into pharmaceutical raw materials and other useful chemicals. For this, Tsuda Akihiko, the CEO and associate professor at the Graduate School of Science, and his team...

phys.org

plastic sheets

Porous plastic sheets can cool buildings by radiating light to space

Traditional cooling systems for buildings use refrigerants and electricity, which contribute to the atmospheric greenhouse effect that exacerbates more extreme weather events. In response, materials scientists have turned to unconventional methods for cooling down buildings. An international...

techxplore.com

Thermal interface material slashes AI data center cooling cost and GPU/CPU power use

The AI revolution has ushered in an era of exponential power and energy consumption. According to the US Department of Energy, energy consumed by AI data centers could triple by 2028. Today, up to 40% of data center power use comes from cooling high-power chips—an astounding amount equivalent to...

techxplore.com

Power goo

Electricity-producing slime could power floors, shoes and more

University of Guelph (U of G) researchers have developed a slime-like material that produces electricity when compressed. When the team studied their prototype using the Canadian Light Source (CLS) at the University of Saskatchewan, they discovered the material has an array of potential...

techxplore.com

Magnets

Advance in opto-magnetic technology leads to five-fold increase in torque efficiency

Researchers at Tohoku University have achieved a significant advancement in opto-magnetic technology, observing an opto-magnetic torque approximately five times more efficient than in conventional magnets. This breakthrough, led by Koki Nukui, Assistant Professor Satoshi Iihama, and Professor...

phys.org

publiusr · 14 February 2025

On flight

https://phys.org/news/2025-02-ancient-pterosaur-bones-future-aerospace.html

Water tweezers

https://phys.org/news/2025-02-tweezers-technique-generates-topological-gravity.html

https://phys.org/news/2025-02-generating-extremely-repellent-surfaces.html

Transparent aluminum easier

https://phys.org/news/2025-02-transparent-aluminum-tiny-acid-droplets.html

https://techxplore.com/news/2025-02-transparent-ceramics-life-semiconductor-etching.html

https://phys.org/news/2025-02-einstein-problem-molecular-chirality-unexpected.html

silk

https://phys.org/news/2025-02-surpass-silkworm-silk-holistic-approach.html

https://techxplore.com/news/2025-02-smart-jacket-ai-overheating-discomfort.html

Cement

https://techxplore.com/news/2025-02-minute-cement-quality-week-standard.html

reefer tech

https://phys.org/news/2025-02-eco-friendly-method-recycle-refrigerants.html

liquids and gas

https://phys.org/news/2025-02-machine-physics-merge-liquid-gas.html

https://phys.org/news/2025-02-experimental-exotic-phase-plastic-ice.html

https://phys.org/news/2025-02-liquid-metal-mimic-white-blood.html

https://phys.org/news/2025-02-dynamics-fluid-inclined-fibers.html

other materials

https://phys.org/news/2025-02-ai-precursor-materials-material-synthesis.html

publiusr · 22 February 2025

Lubricant

https://phys.org/news/2025-02-solid-state-lubricant-atomically-thin.html

plasma cutting

https://phys.org/news/2025-02-plasma-arc-scientists-decode-gas.html

new resin

https://phys.org/news/2025-02-epoxy-resin-combines-safety-recyclability.html

ceramics and more

Researchers make progress in high-temperature thermally sensitive ceramics

To meet the demands of extreme high-temperature environments, such as aerospace engines and thermal systems in new energy vehicles, high-temperature thermosensitive sensors need to demonstrate high stability and sensitivity.

phys.org

https://phys.org/news/2025-02-exploring-bifeo-piezocatalytic-potential-materials.html

https://phys.org/news/2025-02-synthetic-diamond-hexagonal-lattice-outshines.html

https://phys.org/news/2025-02-2d-carbon-material-tougher-graphene.html

https://phys.org/news/2025-02-scaling-sustainable-carbon-fiber-production.html

https://phys.org/news/2025-02-scientists-toughest-biomaterials-clues-pollen.html

https://phys.org/news/2025-02-material-tree-nuts-broad-medical.html

https://phys.org/news/2025-02-physicists-amorphous-solids-stability.html

https://phys.org/news/2025-02-silicon-nitride-based-electromagnetic-metamaterial.html

Magnetic cloak

https://phys.org/news/2025-02-magnetic-invisibility-cloak-obstacles-particle.html

flexible crystals and foam

https://phys.org/news/2025-02-flexible-crystals-reveal-secrets-elasticity.html

https://phys.org/news/2025-02-polyurethane-memory-foil-foam.html

https://phys.org/news/2025-02-unveils-extrusion-instabilities-viscoelastic-materials.html

https://techxplore.com/news/2025-02-pattern-disorder-toughens-materials.html

HelioSkin

https://techxplore.com/news/2025-02-solar-solutions-bio-approach-bespoke.html

https://techxplore.com/news/2025-02-tiny-grooves-reshape-future-solar.html

https://techxplore.com/news/2025-02-thermophotovoltaic-device-electricity-defying-physical.html

https://techxplore.com/news/2025-02-wireless-tech-efficiency-dynamic-frequency.html

Wind effects

https://techxplore.com/news/2025-02-hurricane-proofed-downtown-skyscrapers-unexpectedly.html

Static

https://phys.org/news/2025-02-static-electricity-materials-contact-history.html

New Camera

https://phys.org/news/2025-02-palm-sized-shot-full-incoherent.html

Other optics

https://phys.org/news/2025-02-microscope-reveals-full-3d-molecular.html

https://medicalxpress.com/news/2025-02-butterfly-wings-imaging-technique-cancer.html

https://phys.org/news/2025-02-tiny-antennas-amplify-polarized.html

https://phys.org/news/2025-02-limits-custom-microscopy-d-imaging.html

https://phys.org/news/2025-02-optical-tweezers-reveal-motion-symmetric.html

https://phys.org/news/2025-02-ray-technique-fresh-insights-actinide.html

https://phys.org/news/2025-02-carbon-nanotubes.html

https://phys.org/news/2025-02-liquid-mirrors-straight-magnets-problem.html

https://phys.org/news/2025-02-fabrication-method-advances-high-photon.html

https://phys.org/news/2025-02-special-microscope-individual-phytoplankton-cells.html

https://techxplore.com/news/2025-02-synaptic-device-array-memory-artificial.html

Grey Havoc · 26 February 2025

Powering a digital society of the future

Discover how ceramic technology is powering our devices. #Ad Paid and Presented by NGK Insulators

www.bbc.com

publiusr · 28 February 2025

Ceramic powders with Archimedean shapes resist extreme heat and oxidation

A research team led by Prof. Hu Xiaoye from the Hefei Institutes of Physical Science of the Chinese Academy of Sciences has synthesized high-quality boride ceramic powders with an Archimedean shape.

phys.org

Researchers make progress in high-temperature thermally sensitive ceramics

To meet the demands of extreme high-temperature environments, such as aerospace engines and thermal systems in new energy vehicles, high-temperature thermosensitive sensors need to demonstrate high stability and sensitivity.

phys.org

bubbles

Bubbles that break rules: A fluid discovery that defies logic

A team led by researchers at UNC-Chapel Hill have made an extraordinary discovery that is reshaping our understanding of bubbles and their movement. Picture tiny air bubbles inside a container filled with liquid. When the container is shaken up and down, these bubbles engage in an unexpected...

phys.org

Glass

Sound waves create permanently water-repellent glass

Curtin University researchers have developed a new technique to make glass water-repellent, a feature that could improve safety in vehicles, reduce cleaning costs for buildings and enhance filtration systems.

phys.org

Novel photochromic glass can store rewritable 3D patterns

For decades, researchers have been exploring how to store data in glass because of its potential to hold information for a long time—eons—without applying power. A special type of glass that changes color in different wavelengths of light, called photochromic glass, holds promise for stable...

techxplore.com

New alloy

Superelastic alloy that functions in extreme temperatures could aid space exploration

Researchers at Tohoku University have developed a titanium-aluminum (Ti-Al)-based superelastic alloy. This new material is not only lightweight but also strong, offering the unique superelastic capability to function across a broad temperature range—from as low as -269°C, the temperature of...

techxplore.com

AI framework overcomes the strength-ductility dilemma in additive-manufactured titanium alloys

The KAIST research team led by Professor Seungchul Lee from the Department of Mechanical Engineering, in collaboration with Professor Hyoung Seop Kim's team at POSTECH, have successfully overcome the strength–ductility dilemma of Ti-6Al-4V alloys using artificial intelligence, enabling the...

techxplore.com

Laser-textured metal surfaces mimic shark skin to combat bacterial biofilms

Keeping work surfaces clean during meat processing is a challenge. Bacteria from meat can attach, grow, and build up to create a biofilm that is difficult to remove, even on stainless steel surfaces used in industrial facilities. It can also aggregate, clumping together into an invisible mass...

phys.org

Tin foam powers new battery electrode innovation

Metal-based electrodes in lithium-ion batteries promise significantly higher capacities than conventional graphite electrodes. Unfortunately, they degrade due to mechanical stress during charging and discharging cycles. A team at HZB has now shown that a highly porous tin foam is much better at...

techxplore.com

lattice

Bioinspired lattice design offers new possibilities for construction and safety

Inspired by the humble deep-sea sponge, RMIT University engineers have developed a new material with remarkable compressive strength and stiffness that could improve architectural and product designs.

techxplore.com

Graphyne

Graphyne's transformation: A new carbon form with potential for electronics

Graphyne is a crystalline form of carbon that is distinct from both diamond and graphite. Unlike diamond, where each atom possesses four immediate neighbors, or graphite, where each atom has three, graphyne's structure combines two-coordinate and three-coordinate carbons.

phys.org

Modifying graphene sheets with plasma to produce better gas sensors

Gas sensing technologies play a vital role in our modern world, from ensuring our safety in homes and workplaces to monitoring environmental pollution and industrial processes. Traditional gas sensors, while effective, often face limitations in their sensitivity, response time, and power...

phys.org

Physicists find unexpected crystals of electrons in new ultrathin material

MIT physicists report the unexpected discovery of electrons forming crystalline structures in a material only billionths of a meter thick. The work adds to a gold mine of discoveries originating from the material, which the same team discovered only about three years ago.

phys.org

lubrication

Superlubricity enables frictionless sliding in electronic devices only two atoms thick

A technological advancement from Tel Aviv University has, for the first time, enabled the application of the scientific phenomenon of superlubricity in electronic components. As a result, the research team successfully harnessed frictionless sliding to significantly enhance the performance of...

phys.org

textiles

Mathematicians introduce crossing matrices to decode doubly periodic weaves

Doubly periodic weaves—entangled structures with repeating patterns in two independent directions—pose a mathematical challenge. Originally conceived to model real-world structures, such as woven textiles and molecular weaving of polymers, mathematicians have generalized the theory to include...

phys.org

Microwave reactor can recycle aramid fibers found in bulletproof vests

Twaron and Kevlar are brand names for aramid fibers, which are strong as steel yet much lighter. They are used to make bulletproof vests, strong ropes, and high-performance car tires, for example. These extremely tough materials have one drawback: they are very difficult to recycle.

phys.org

Fiber computer allows apparel to run apps and 'understand' the wearer

What if the clothes you wear could care for your health? MIT researchers have developed an autonomous programmable computer in the form of an elastic fiber, which could monitor health conditions and physical activity, alerting the wearer to potential health risks in real-time.

techxplore.com

Researchers transform textile waste into stronger recycled paper

Until now, old clothes have mainly been incinerated. Using adapted processes from paper production, it is possible to recover the cellulose fibers from used clothing and use them to produce cardboard and other packaging materials.

techxplore.com

Low-power

Material's 'incipient ferroelectricity' could jumpstart fast, low-power electronics

Scientists at Penn State have harnessed a unique property called incipient ferroelectricity to create a new type of computer memory that could revolutionize how electronic devices work, such as using much less energy and operating in extreme environments like outer space.

phys.org

Unraveling how a 'magnetic twist' induces one-way electric flow

Researchers at Tohoku University, the University of Manchester, and Osaka University have made a breakthrough that has the potential to ignite the development of next-gen chiral information technology.

phys.org

Scientists design novel battery that runs on atomic waste

Researchers have developed a battery that can convert nuclear energy into electricity via light emission, a new study suggests.

techxplore.com

Can measuring nothing … do something? Cooling vibrations with zero-photon detection

Experiments coupling light and sound reveal the surprising effect that measuring nothing can cool the vibrations of an object.

phys.org

jamming

Selective jamming: Reconfigurable intelligent surfaces reveal new method of attacking Wi-Fi networks

Wireless connections are common in most households today. From your lights to your heating, everything can be connected and controlled through Wi-Fi. However, wireless technology is inherently vulnerable to the threat of jamming.

techxplore.com

bobbymike · 2 March 2025

https://scitechdaily.com/superelastic-alloy-stays-strong-from-liquid-helium-to-boiling-water-transforming-space-and-medicine/

Grey Havoc · 3 March 2025

https://phys.org/news/2025-02-doubly-magic-nucleus-defies-properties.html

publiusr · 7 March 2025

Titanium

AI reveals new way to strengthen titanium alloys and speed up manufacturing

Producing high-performance titanium alloy parts—whether for spacecraft, submarines or medical devices—has long been a slow, resource-intensive process. Even with advanced metal 3D-printing techniques, finding the right manufacturing conditions has required extensive testing and fine-tuning.

techxplore.com

Nanoscale tweaks help alloy withstand high-speed impacts

A Cornell-led collaboration devised a new method for designing metals and alloys that can withstand extreme impacts: introducing nanometer-scale speed bumps that suppress a fundamental transition that controls how metallic materials deform.

techxplore.com

Glass bridge

A 30-foot-long glass bridge blends ancient wisdom with cutting-edge design

With more than 500 bridges crisscrossing the city of Philadelphia, they are an integral part of daily life. In a city defined by its rivers, bridges make possible the connections between people.

techxplore.com

Sapphires and ice

Super sapphire nanostructures resist scratches, glare, fog and dust

A phone screen you can't scratch no matter how many times you drop it; glasses that prevent glare; a windshield that doesn't get dusty. These are all possibilities thanks to a new way to produce sapphire.

phys.org

Order to disorder: Scientists take close look at icy surfaces with spectroscopy, simulation and machine learning

Much like a tongue freezes to a frigid metal pole, ice can speed up the adsorption, or stickiness, of molecules. An icy surface can also cause molecules to degrade in the presence of light, releasing trace gases. Before researchers can measure these reactions and incorporate their impacts in...

phys.org

Scientists catch water molecules flipping before splitting

For the first time, Northwestern University scientists have watched water molecules in real-time as they prepared to give up electrons to form oxygen.

phys.org

Tough stuff

Researchers develop highly robust, reconfigurable, and mechanochromic cellulose photonic hydrogels

Inspired by the natural Bouligand structure, researchers have been developing advanced materials for applications in impact-resistant bioplastics, ceramic armor, and biomimetic alloy composites. Most existing materials are still composed of single-scale brittle units despite the progress in...

phys.org

Packets of freeze-dried bacteria can grow biocement on demand

Cement manufacturing and repair could be significantly improved by using biocement-producing bacteria, but growing the microbes at construction sites remains a challenge. Now, researchers report a freeze-drying approach in ACS Applied Materials & Interfaces that preserves the bacteria...

phys.org

Breaking the surface: How damage reshapes ripples in graphene

Defects in two-dimensional materials (such as an atom-thick sheet of graphene) can dramatically alter the way that the surface ripples, even stopping the sheet in place like a freeze frame.

phys.org

Graphene production technique offers green alternative to graphite mining

Researchers in Sweden report a green alternative to reduce reliance on mining graphite, the raw source behind the "wonder material" graphene. In the journal Small, researchers at KTH Royal Institute of Technology say they have developed a reproducible and scalable method for producing graphene...

phys.org

Triple bond formed between boron and carbon for the first time

Boron, carbon, nitrogen and oxygen: these four elements can form chemical triple bonds with each other due to their similar electronic properties. Examples of this are the gas carbon monoxide, which consists of one carbon and one oxygen atom, or the nitrogen gas in the Earth's atmosphere with...

phys.org

Soft materials

Open-source software that models soft materials expands engineering solutions

When mechanical and structural engineers design machines, bridges, and buildings, they calculate loads, stresses, and deformation of metal, steel, concrete, glass, wood, and plastic to find the optimal geometry that bears loads with the minimum cost of material.

techxplore.com

Breaking down corrosion to predict failure and design stronger materials

You've seen the movie scene: dilapidated skyscrapers, collapsed bridges, and empty, shell-like cars in a post-apocalyptic city. While Hollywood imagines fictional causes for this decay, in reality, the culprit is far more mundane: corrosion.

phys.org

web spinning

Silk-inspired in situ web spinning for situated robots

Researchers at the Institute of Technology, University of Tartu, present a robotics concept in which temporary robot embodiments and movement pathways are spun in situ from a polymer solution. They demonstrate an ad hoc gripper for delicate handling and a bridge for crossing debris fields and...

techxplore.com

Stretching spider silk makes it stronger by aligning protein chains

When spiders spin their webs, they use their hind legs to pull silk threads from their spinnerets. This pulling action doesn't just help the spider release the silk, it's also a crucial step in strengthening the silk fibers for a more durable web.

phys.org

nanotubes

The power of confinement: How tiny nanotubes can squeeze new materials into being

An international research project, led by The University of Warwick and the University of Lille, has used nanotube compression to transform the underlying chemistry and physics of a compound, creating a promising new one-dimensional material.

phys.org

polymers

A new way to engineer composite materials: Polymer design combines strength with reversibility

Composite adhesives like epoxy resins are excellent tools for joining and filling materials including wood, metal, and concrete. But there's one problem: once a composite sets, it's there forever. Now there's a better way. Researchers have developed a simple polymer that serves as a strong and...

phys.org

Anion–π interactions: The secret to stronger synthetic polymers

A research team, led by Professor Dong Woog Lee from the Department of Chemistry at UNIST, in collaboration with Professor Byeong-Su Kim from the Department of Chemistry at Yonsei University, has discovered that the synergistic anion–π interactions serve as a key principle in enhancing the...

phys.org

'One-pot' technique creates inorganic and polymer battery electrolytes simultaneously

Creating battery electrolytes—the component that carries the charged particles back and forth between a battery's two terminals—has always been a tradeoff.

techxplore.com

Sustainable smart polymers change color and self-repair when damaged

Plastics, which are polymeric materials composed of long chains of small molecules called monomers, are widely used in everyday life and industry due to their lightweight, good strength and flexibility. However, with approximately 52 million tons of plastic waste generated annually, plastic...

phys.org

A chemical 'trojan horse': Polymers used in everyday products can degrade into toxic chemicals, study finds

The scientific community has long believed that polymers—very large molecules—are too big to migrate out of products into people and therefore pose no health risks. As a result, polymers have largely evaded regulation. For example, polymers are exempt from the major toxics acts: Toxic Substances...

phys.org

Entangled polymers and nanosheets create skin-like, self-healing hydrogel

We all encounter gels in daily life—from the soft, sticky substances you put in your hair to the jelly-like components in various foodstuffs. While human skin shares gel-like characteristics, it has unique qualities that are very hard to replicate. It combines high stiffness with flexibility...

phys.org

Phosphorus doping stabilizes high-energy polymeric nitrogen at ambient pressure

Using first-principles calculations, a research group led by Prof. Wang Xianlong from the Hefei Institutes of Physical Science of the Chinese Academy of Sciences, found that phosphorus doping is an effective way to achieve high-energy polymeric nitrogen with black-phosphorus structure (BP-N)...

phys.org

Scientists unveil rapid technique for creating uniform polymer nanostructures

Researchers at the University of Birmingham have developed a new method for the rapid, scalable preparation of uniform nanostructures directly from block polymers.

phys.org

New approach to reconfigurable colloidal assemblies paves way for adaptive smart materials

Colloidal self-assembly is a process where colloidal particles spontaneously organize into ordered structures under specific conditions. Colloidal self-assembly serves as a foundation for designing materials like optoelectronic devices and sensors. One of the most intriguing frontiers in...

phys.org

Serendipitous discovery reveals how stress and chemistry etch mysterious spiral patterns

UCLA doctoral student Yilin Wong noticed that some tiny dots had appeared on one of her samples, which had been accidentally left out overnight. The layered sample consisted of a germanium wafer topped with evaporated metal films in contact with a drop of water. On a whim, she looked at the dots...

phys.org

Decoding nanomaterial phase transitions with tiny drums

When water freezes into ice or boils into vapor, its properties change dramatically at specific temperatures. These so-called phase transitions are fundamental to understanding materials. But how do such transitions behave in nanomaterials?

phys.org

Bio-based polyester nanocomposites offer high performance and reprocessability

A research team led by Prof. Zhu Jin from the Ningbo Institute of Materials Technology and Engineering (NIMTE) of the Chinese Academy of Sciences (CAS) has synthesized a novel bio-based polyester nanocomposite with high performance and reprocessability through an in-situ innovative catalysis...

phys.org

Liquid nanofoam innovation designed to protect the brain now tested on internal organs

Researchers at Michigan State University have refined an innovation that has the potential to improve safety, reduce severe injury and increase survival rates in situations ranging from car accidents, sports, law enforcement operations and more.

phys.org

Tech

Olympicene molecular chains create quantum spin systems with spintronics applications

In a new publication in Nature Materials, an international team of researchers has developed groundbreaking artificial chains of the iconic "olympicene" molecules to realize the antiferromagnetic (AF) spin-½ Heisenberg model, a flagship quantum spin model that has been the cornerstone of quantum...

phys.org

Real-time tracking reveals aromaticity-driven molecular shape changes

Scientists have achieved the first real-time visualization of how excited-state aromaticity emerges within just hundreds of femtoseconds and then triggers a molecule to change from bent to planar structure in a few picoseconds.

phys.org

publiusr · 13 March 2025

A good article with implications for TPS came out--

Nature-inspired ceramic fiber aerogels advance thermal insulation

Recently, a research group led by Prof. Wang Zhenyang and Zhang Shudong from the Hefei Institutes of Physical Science of the Chinese Academy of Sciences, developed a new type of ceramic fiber aerogel, SiC@SiO₂, featuring highly anisotropic thermal conductivity and extreme thermal stability...

phys.org

"Nature inspired ceramic fiber aerogels advances thermal insulation."
The work led by Prof. Wang Zhenyang.

Other ceramics

Researchers achieve record-high electrostrain in lead-free piezoceramics

Researchers from Tsinghua University, the Beijing Institute of Technology, the University of Wollongong (Australia), and the Hefei Institutes of Physical Science of the Chinese Academy of Sciences, have achieved an ultrahigh electrostrain of 1.9% in (K,Na)NbO3 (KNN) lead-free piezoelectric ceramics.

phys.org

Magnet

Scientists develop high-performance permanent magnet without expensive heavy rare earth elements

The Nano Materials Research Division at the Korea Institute of Materials Science (KIMS), led by Dr. Tae-Hoon Kim and Dr. Jung-Goo Lee has successfully developed a grain boundary diffusion process that enables the fabrication of high-performance permanent magnets without the use of expensive...

techxplore.com

Phosphorene nanoribbons shown to exhibit magnetic and semiconductor properties at room temperature

Scientists have long suspected that phosphorene nanoribbons (PNRs)—thin pieces of black phosphorus, only a few nanometers wide—might exhibit unique magnetic and semiconducting properties, but proving this has been difficult.

phys.org

Reading magnetic states faster—in far infrared

With today's data rates of only a few hundred megabytes per second, access to digital information remains relatively slow. Initial experiments have already shown a promising new strategy: Magnetic states can be read out by short current pulses, whereby recently discovered spintronic effects in...

phys.org

optics

Quantum holograms: Metasurfaces entangle light and information in new study

Quantum entanglement is a fundamental phenomenon in nature and one of the most intriguing aspects of quantum mechanics. It describes a correlation between two particles, such that measuring the properties of one instantly reveals those of the other, no matter how far apart they are. This unique...

phys.org

Metasurface technology offers a compact way to generate multiphoton entanglement

Quantum information processing is a field that relies on the entanglement of multiple photons to process vast amounts of information. However, creating multiphoton entanglement is a challenging task. Traditional methods either use quantum nonlinear optical processes, which are inefficient for...

phys.org

Laser-based radiation detector allows testing from a safer distance

A multi-institutional team of physicists and engineers has developed a laser-based radiation detection system that operates from as far away as 10 meters and perhaps farther. Their research is published in the journal Physical Review Applied.

phys.org

Compact optical device achieves super-resolution imaging beyond the diffraction limit

Researchers from the University of Science and Technology of China (USTC) have unveiled a planar optical device that significantly enhances the capabilities of dark-field microscopy, achieving super-resolution imaging beyond the diffraction limit. The work was led by Prof. Zhang Douguo and has...

phys.org

Novel high-fidelity computational microscopy uses stable features for clearer imaging

Computational microscopy is vital in biomedicine and materials science. Traditional methods struggle with optical aberrations, noise interference, and differences between physical models and real-world imaging, reducing the resolution and accuracy. They rely on pixel-level optimization, which...

phys.org

'Self-driving' microscope allows imaging at different scales and long-term tracking

A new "self-driving" microscope developed by UT Southwestern Medical Center researchers solves two fundamental challenges that have long plagued microscopy: first, imaging living cells or organisms at dramatically different scales, and second, following a specific structure or area of interest...

phys.org

Finding calm in the light storm: Novel light-shaping technique enables stable beam navigation through dynamic media

Scientists have found a new way to navigate beams of light through dynamic scattering media, such as the turbulent atmosphere or living tissue.

phys.org

Spinning, twisted light could power next-generation electronics

Researchers have advanced a decades-old challenge in the field of organic semiconductors, opening new possibilities for the future of electronics. The researchers, led by the University of Cambridge and the Eindhoven University of Technology, have created an organic semiconductor that forces...

phys.org

How lasers transform matter in a flash: New method tracks changes on attosecond scale

Instantly turning a material from opaque to transparent, or from a conductor to an insulator, is no longer the stuff of science fiction. For several years now, scientists have been using lasers to control the properties of matter at extremely fast rates: during one optical cycle of a light wave...

phys.org

Quantum-inspired cameras capture the start of life

Researchers at the University of Adelaide have performed the first imaging of embryos using cameras designed for quantum measurements.

phys.org

A tiny component for record-breaking bandwidth: New modulator breaks the terahertz mark

Plasmonic modulators are tiny components that convert electrical signals into optical signals in order to transport them through optical fibers. A modulator of this kind had never managed to transmit data at a frequency of over a terahertz (over a trillion oscillations per second).

techxplore.com

A new protocol to image wave functions in continuous space

In recent years, physicists have been trying to better understand the behavior of individual quantum particles as they move in space. Yet directly imaging these particles with high precision has so far proved challenging, due to the limitations of existing microscopy methods.

phys.org

X-ray snapshot: How light bends an active substance

Many biologically important molecules change shape when stimulated by UV radiation. Although this property can also be found in some drugs, it is not yet well understood. Using an innovative technique, an international team involving researchers from Goethe University Frankfurt, the European...

phys.org

Simplified method for observing electron motion in solids unveiled

The ultrafast dynamics and interactions of electrons in molecules and solids have long remained hidden from direct observation. For some time now, it has been possible to study these quantum-physical processes—for example, during chemical reactions, the conversion of sunlight into electricity in...

phys.org

Ultra-broadband photonic chip boosts optical signals to reshape high-speed data transmission

Modern communication networks rely on optical signals to transfer vast amounts of data. But just like a weak radio signal, these optical signals need to be amplified to travel long distances without losing information.

techxplore.com

High-performance programmable photonic chip could transform radar and communication systems

Researchers at the University of Twente, in collaboration with the City University of Hong Kong, have designed a cutting-edge programmable photonic chip in a thin-film lithium niobate platform, an important material in photonics. Published in Nature Communications, this work paves the way for...

techxplore.com

Alloys

Understanding the origin of magnetic moment enhancement in novel alloys

Magnetic materials have become indispensable to various technologies that support our modern society, such as data storage devices, electric motors, and magnetic sensors.

phys.org

Scientists achieve universal technique—called van der Waals squeezing—for atomic manufacturing of 2D metals

Since the groundbreaking discovery of graphene in 2004, the dizzying pace of progress in two-dimensional (2D) materials has ushered in a new era of fundamental research and technological innovation. Although nearly 2,000 2D materials have been theoretically predicted and hundreds have been...

phys.org

Scientists discover new heavy-metal molecule 'berkelocene'

A research team led by the Department of Energy's Lawrence Berkeley National Laboratory (Berkeley Lab) has discovered "berkelocene," the first organometallic molecule to be characterized containing the heavy element berkelium.

phys.org

Density functional theory's self-interaction correction falters in transition metals, study finds

Density functional theory (DFT) is a cornerstone tool of modern physics, chemistry, and engineering used to explore the behavior of electrons. While essential in modeling systems with many electrons, it suffers from a well-known flaw called self-interaction error. A recent study has identified a...

phys.org

bottles

Preventing freezer bottle explosions: New insights into ice crystallization and pressure

Have you ever left a bottle of liquid in the freezer, only to find it cracked or shattered? To save you from tedious freezer cleanups, researchers at the University of Amsterdam have investigated why this happens, and how to prevent it. They discovered that while the liquid is freezing, pockets...

phys.org

Pinpointing weaknesses in hot water bottle design

Research from the University of Liverpool has highlighted weaknesses in the structural design of hot water bottles. Hot water bottles have been around for generations, yet there is surprisingly little research into how they respond to external forces. However, increased reports of sudden...

techxplore.com

publiusr · 21 March 2025

Carbon nanotubes

https://phys.org/news/2025-03-carbon-nanotube-wires-wearables-crafted.html

diamond

https://phys.org/news/2025-03-qa-crystallizing-physicists-phase-center.html

slime

https://phys.org/news/2025-03-velvet-worm-slime-reversible-liquid.html

Concrete

https://techxplore.com/news/2025-03-recycled-cements-emissions-slacking-strength.html

https://techxplore.com/news/2025-03-carbon-negative-material-concrete-cement.html

Chemical archives

https://phys.org/news/2025-03-ai-based-chemical-reactions-archives.html

https://phys.org/news/2025-03-molecular-library-frontier-biological-space.html

https://phys.org/news/2025-03-thermomajorization-theory-framework-quantifying-mysterious.html

sensor

https://phys.org/news/2025-03-democratizing-chemical-analysis-machine-robotics.html

https://phys.org/news/2025-03-nanomaterials-nuclear-reaction-radioactive-nuclei.html

https://phys.org/news/2025-03-dogs-noses-decoded-optical-sensor.html

https://techxplore.com/news/2025-03-combining-photonic-neural-networks-acoustic.html

https://techxplore.com/news/2025-03-hypernir-technology-cameras-real-environmental.html

https://techxplore.com/news/2025-03-bridge-collapses-ai-based-digital.html

On thin films

https://phys.org/news/2025-03-technology-enables-rapid-thin-minute.html

A new nanoplastic paves the way for sustainable street lighting

A new study resulting from a collaboration between King Abdullah University of Science and Technology (KAUST) and King Abdulaziz City for Science and Technology (KACST) shows how nanomaterials can significantly reduce the carbon emissions of LED (light-emitting diode) streetlights. The research...

techxplore.com

https://phys.org/news/2025-03-ai-reveals-secrets-dendritic-growth.html

https://phys.org/news/2025-03-scientists-precise-synthesis-crystalline-sp.html

https://phys.org/news/2025-03-unfamiliar-familiar-substance-extraordinary-interfacial.html

https://techxplore.com/news/2025-03-ultra-thin-solid-electrolyte-membrane.html

https://phys.org/news/2025-03-stacking-constraints-hexagonal-boron-nitride.html

https://techxplore.com/news/2025-03-based-stabilization-polymer-bioelectronics-fabrication.html

porous materials and pressure

https://phys.org/news/2025-03-3d-van-der-waals-frameworks.html

https://phys.org/news/2025-03-discovery-pressure-driven-amorphization-material.html

weave

https://phys.org/news/2025-03-law-energy-fracture-stretchable-networks.html

water

https://phys.org/news/2025-03-supercritical-decoded-analysis-molecular-clusters.html

Materials for high power electronics

https://phys.org/news/2025-03-ai-fe-based-amorphous-alloys.html

https://phys.org/news/2025-03-advance-substrate-pathways-power-electronics.html

publiusr · 28 March 2025

Copper superalloy

Nanostructured copper alloy rivals superalloys in strength and stability

Researchers from the U.S. Army Research Laboratory (ARL) and Lehigh University have developed a nanostructured copper alloy that could redefine high-temperature materials for aerospace, defense, and industrial applications.

phys.org

Physicists discover a copper-free high-temperature superconducting oxide

Professor Ariando and Dr. Stephen Lin Er Chow from the National University of Singapore (NUS) Department of Physics have designed and synthesized a groundbreaking new material—a copper-free superconducting oxide—capable of superconducting at approximately 40 Kelvin (K), or about minus 233°C...

phys.org

Nanoscale ripples provide key to unlocking thin material properties in electronics

When materials are created on a nanometer scale—just a handful of atoms thick—even the thermal energy present at room temperature can cause structural ripples. How these ripples affect the mechanical properties of these thin materials can limit their use in electronics and other key systems.

phys.org

AI model transforms material design by predicting and explaining synthesizability

A research team has successfully developed a technology that utilizes Large Language Models (LLMs) to predict the synthesizability of novel materials and interpret the basis for such predictions. The team was led by Seoul National University's Professor Yousung Jung and conducted in...

phys.org

Nickel(0) and boron—together at last in square-planar complexes

The arrangement of small molecules—known as ligands—around transition metal atoms affects how the metal atoms behave. This is important because transition metals are used as catalysts in the synthesis of a wide range of important materials.

phys.org

Light-induced symmetry changes in tiny crystals allow researchers to create materials with tailored properties

Imagine building a Lego tower with perfectly aligned blocks. Each block represents an atom in a tiny crystal, known as a quantum dot. Just like bumping the tower can shift the blocks and change its structure, external forces can shift the atoms in a quantum dot, breaking its symmetry and...

phys.org

Harnessing nature's fractals for flexible electronics: Biomimetic fabrication technique uses leaf skeletons as templates

By using leaf skeletons as templates, researchers harnessed nature's intrinsic hierarchical fractal structures to improve the performance of flexible electronic devices. Wearable sensors and electronic skins are examples of flexible electronics.

techxplore.com

Mapping the future of metamaterials

Metamaterials are artificially-structured materials with extraordinary properties not easily found in nature. With engineered three-dimensional (3D) geometries at the micro- and nanoscale, these architected materials achieve unique mechanical and physical properties with capabilities beyond...

phys.org

New geometric design of material provides safer bicycle helmet

By using new geometric shapes in shock-absorbing material, researchers at the Universities of Gothenburg and Isfahan have developed a bicycle helmet that provides better protection against head injuries. The material absorbs shock by contracting bilaterally.

techxplore.com

steel pipeline tech

Improving steel pipelines for safe transport of hydrogen: Synchrotron light captures 3D images of cracks formed inside

Hydrogen is increasingly gaining attention as a promising energy source for a cleaner, more sustainable future. Using hydrogen to meet the energy demands for large-scale applications such as utility infrastructure will require transporting large volumes via existing pipelines designed for...

techxplore.com

optics

Researchers unveil unidirectional light focusing using diffractive optics

Researchers at the University of California, Los Angeles (UCLA) have unveiled a new optical technology that enables precise focusing of light—only in one direction. This novel unidirectional focusing design uses structured diffractive layers that are optimized using deep learning to transmit...

phys.org

Quantum imaging method developed for enhanced image clarity

For decades, quantum imaging has promised sharper images and greater light sensitivity than classical methods by exploiting the unique properties of quantum light, such as photon entanglement. But the approaches to do so rely on delicate, specially engineered light sources that are easily...

phys.org

Beyond ambiguous reflections: Bridging optical 3D metrology and computer vision

Accurate and robust 3D imaging of specular, or mirror-like, surfaces is crucial in fields such as industrial inspection, medical imaging, virtual reality, and cultural heritage preservation. Yet anyone who has visited a house of mirrors at an amusement park knows how difficult it is to judge the...

phys.org

Efficient light control: Meta-optics replace conventional lenses

Conventional curved lenses, which direct light by refraction in glass or plastic, are often bulky and heavy, offering only limited control of light waves. Metasurfaces, in contrast, are flat and consist of an array of tiny structures known as meta-atoms. Meta-atoms influence light at a...

phys.org

Graphene-based programmable surfaces advance terahertz imaging and 6G communications

Researchers at The University of Manchester's National Graphene Institute have introduced a new class of reconfigurable intelligent surfaces capable of dynamically shaping terahertz (THz) and millimeter (mm) waves. Detailed in a paper published in Nature Communications, this breakthrough...

phys.org

Terahertz imaging reveals new views of internal cochlea structure

For the first time, researchers have shown that terahertz imaging can be used to visualize internal details of the mouse cochlea with micron-level spatial resolution. The non-invasive method could open new possibilities for diagnosing hearing loss and other ear-related conditions.

phys.org

Ultra-precision sensor technology developed for single-molecule detection

A research team affiliated with the Nano Optics Group within the Department of Physics at UNIST has announced the successful implementation of a plasmonic structure capable of precisely adjusting nanometer-sized gaps in response to temperature changes. This technology enables real-time...

phys.org

Cascaded-mode interferometer could replace beam-splitting waveguides for fiber optics

Interferometers, devices that can modulate aspects of light, play the important role of modulating and switching light signals in fiber-optic communications networks and are frequently used for gas sensing and optical computing.

phys.org

Patterned spintronic emitter enables room-temperature THz polarization control for wireless and biomedical applications

Terahertz (THz) waves are located between microwaves and infrared light in the electromagnetic spectrum. They can pass through many materials without causing damage, making them useful for security scanning, medical imaging, and high-speed wireless communication. Unlike visible light or radio...

phys.org

Breathing-soliton laser study unveils new complexities in synchronization phenomena

An Aston University researcher has conducted the first experimental demonstration of intricate and previously theorized behaviors in the fundamental patterns that govern oscillatory systems in nature and technology.

phys.org

AI camera tech promises affordable self-driving cars

AI-powered camera technology developed by Australian Catholic University will enable cars to react faster than an Olympic sprinter, see in 3D, and make autonomous driving safer and more affordable.

techxplore.com

Heat and magnetism

Scientists achieve breakthrough in harnessing heat to control magnetism in 2D materials

Pioneering new research could help unlock exciting new potential to create ultrafast, laser-driven storage devices. The study, led by experts from the University of Exeter, could revolutionize the field of data storage through the development of laser-driven magnetic domain memories.

phys.org

'Half ice, half fire': Physicists discover new phase of matter in a magnetic material

Two scientists at the U.S. Department of Energy's (DOE) Brookhaven National Laboratory have discovered a new phase of matter while studying a model system of a magnetic material.

phys.org

Magnetic 'microflowers' enhance local magnetic fields

A flower-shaped structure only a few micrometers in size made of a nickel-iron alloy can concentrate and locally enhance magnetic fields. The size of the effect can be controlled by varying the geometry and number of "petals."

phys.org

https://phys.org/news/2025-03-elusive-electronic-rotons-reveal-formation.html

https://phys.org/news/2025-03-redefine-advanced-surfaces.html

Phasons

https://phys.org/news/2025-03-moir-eye-phasons-enable-interlayer.html

wood

https://phys.org/news/2025-03-sturdy-semi-transparent-wood-cheap.html

An eye on industry workflow

https://techxplore.com/news/2025-03-neural-networks-production-video-industrial.html

https://techxplore.com/news/2025-03-graphs-accessible-vision-readers.html

https://techxplore.com/news/2025-03-smart-textiles-surfaces-lightweight-elastomer.html

spray-tech

https://phys.org/news/2025-03-spray-technology-pesticides-polluting-runoff.html

https://phys.org/news/2025-03-quantum-tackles-classical-fluid-dynamics.html

https://phys.org/news/2025-03-uncovers-key-pathways-hydronium-hydroxide.html

concrete

https://techxplore.com/news/2025-03-concrete-greener-future-deeper-co8322.html

Strange metals

Study proposes new mechanism underpinning intrinsic strange metal behavior

Quantum critical points are thresholds that mark the transition of materials between different electronic phases at absolute zero temperatures, around which they often exhibit exotic physical properties.

phys.org

publiusr · 4 April 2025

Fibers

New flexible nanofiber material combines strong microwave absorption with exceptional thermal insulation

Recently, a research team led by Prof. Huang Zhulin from the Hefei Institutes of Physical Science of the Chinese Academy of Sciences successfully synthesized a flexible nanofiber felt with ultralow thermal conductivity and exceptional electromagnetic wave absorption properties.

phys.org

Stronger, lighter, cheaper: Enhancing carbon fiber production with low-cost oil residues

Advanced carbon fiber materials could be used in applications from wind turbine blades to biomedical implants following the development of a low-cost carbon fiber feedstock.

techxplore.com

Thin films

Efficient self-assembly enhances self-healing in advanced siloxane materials

Polysiloxane materials, such as polydimethylsiloxane (PDMS)-based elastomers, exhibit a self-healing capability by the introduction of silanolate (Si–O–) groups. This ability stems from their dynamic siloxane (Si–O–Si) bonds, which can break and reform to repair damage. Their self-healing...

phys.org

Moving to autonomous experimentation: Growing thin films with machine learning

From cell phones to solar panels to quantum computers, thin films are essential to current and emerging technologies. But making functional thin films requires control. During hours-long processes, thin films form atom by atom. Small changes in data readouts can tell researchers when something...

phys.org

Analysis identifies optimal microbes for sustainable chemical production

In silico analysis of five industrial microorganisms identifies optimal strains and metabolic engineering strategies for producing 235 valuable chemicals.

phys.org

A step toward plant-based gelatin: Gum tragacanth shows promise for reducing animal use

With increased awareness about food sources and their environmental impacts, replacing animal-derived products in food and drugs is a significant research area. One common—but often overlooked—animal protein is gelatin, found everywhere from candy to plastic-free packaging.

phys.org

Metal bonding and Melts

Supersonic speed limit for strong metal bonding revealed

Faster isn't always better when it comes to high-speed materials science, according to new Cornell research showing that tiny metal particles bond best at a precise supersonic speed.

techxplore.com

Crystal melting and the glass transition obey the same physical law

The melting of crystals is the process by which an increase in temperature induces the disruption of the ordered crystalline lattice, leading to the disordered structure and highly fluctuating dynamic behavior of liquids. At the glass transition, where an amorphous solid (a glass) turns into a...

phys.org

turbulent flow

Enhancing heat transfer using the turbulent flow of viscoelastic fluids

Fluids play a crucial role in industrial processes like cooling, heating, and mixing. Traditionally, most industries would utilize Newtonian fluids—which have a constant viscosity—for such processes. However, many are now adopting viscoelastic fluids, which can behave as both liquids and elastic...

phys.org

levitation

Acoustic levitation of diamond inspires biotech automation innovation

Engineers at a University of Bristol spin-out company have created a new technology that can move cells without touching them, enabling critical tasks that currently require large pieces of lab equipment to be carried out on a benchtop device.

phys.org

Strange combinations

Scientists merge two 'impossible' materials into new artificial structure

An international team led by Rutgers University-New Brunswick researchers has merged two lab-synthesized materials into a synthetic quantum structure once thought impossible to exist and produced an exotic structure expected to provide insights that could lead to new materials at the core of...

phys.org

Kinetic energy storage

Highly twisted metamaterial rods store large amounts of energy

An international research team coordinated at KIT (Karlsruhe Institute of Technology) has developed mechanical metamaterials with a high elastic energy density. Highly twisted rods that deform helically provide these metamaterials with a high stiffness and enable them to absorb and release large...

techxplore.com

Supercapacitor tech

AI model can predict lightning-induced wildfires with unprecedented accuracy

A new artificial intelligence (AI) model developed by Israeli researchers promises to revolutionize wildfire prediction, with a particular focus on lightning-induced blazes that are growing increasingly common due to climate change. The new AI model can predict where and when lightning strikes...

phys.org

Magnesium becomes a possible superconductor near the 2D limit

Magnesium is a common chemical element, an alkaline earth metal, which is highly chemically reactive and is very light (even lighter than aluminum). Magnesium is abundant in plants and minerals and plays a role in human physiology and metabolism. In the cosmos, it is produced by large aging stars.

phys.org

Optics and sensors

Enhancing light control with complex frequency excitations

Researchers at the Advanced Science Research Center at the CUNY Graduate Center (CUNY ASRC) and at Florida International University report in the journal Science their insights on the emerging field of complex frequency excitations, a recently introduced scheme to control light, sound and other...

phys.org

Programmable pixels could advance infrared light applications

Without the ability to control infrared light waves, autonomous vehicles wouldn't be able to quickly map their environment and keep "eyes" on the cars and pedestrians around them; augmented reality couldn't display realistic 3D displays; doctors would lose an important tool for early cancer...

techxplore.com

Revolutionizing 3D vision: How miniaturized snapshot polarization imaging is transforming depth sensing

Capturing precise 3D details with a single camera has long been a challenge. Traditional methods often require complex dual-camera setups or specialized lighting conditions that are impractical for real-world applications. However, a groundbreaking approach developed at Nanjing University is set...

phys.org

Doubling down on metasurfaces: Bilayer device can control many forms of polarized light

Almost a decade ago, Harvard engineers unveiled the world's first visible-spectrum metasurfaces—ultra-thin, flat devices patterned with nanoscale structures that could precisely control the behavior of light. A powerful alternative to traditional, bulky optical components, metasurfaces today...

phys.org

Controlling quantum light at room temperature with tunable nanostructures and low voltage

The ability to control the color, or emission wavelength, of light from quantum sources is central to the development of secure quantum communication networks and photonic-based computing. However, most systems capable of tuning quantum light require extreme conditions, for example, high...

phys.org

Sophisticated sensors offer precision measurement for fusion research

Nuclear fusion is a source of great hope for future energy security, with this field being explored in research reactors around the world. Accurately detecting their performance requires measurement systems that supply valid data even under extreme conditions. And the centerpiece of those...

phys.org

Twisted crystals open door to smaller, more powerful sensors for optical devices

Twisted moiré photonic crystals—an advanced type of optical metamaterial—have shown enormous potential in the race to engineer smaller, more capable and more powerful optical systems. How do they work?

phys.org

Combining polarized light methods reveals hidden molecular orientations with precision

Image quality often makes the difference between an amazing multimedia experience, like feeling immersed in a high-definition movie, and a visual letdown. When it comes to biomolecular imaging, the details matter even more. When scientists increase resolution in quantitative imaging, they...

phys.org

Infrared heavy-metal-free quantum dots deliver sensitive and fast sensors for eye-safe LIDAR applications

The frequency regime lying in the shortwave infrared (SWIR) has very unique properties that make it ideal for several applications, such as being less affected by atmospheric scattering as well as being "eye-safe." These include Light Detection and Ranging (LIDAR), a method for determining...

phys.org

Firefly light gives rise to sensor that detects cellular alterations

The gene encoding an enzyme from a firefly, discovered at the Sorocaba campus of the Federal University of São Carlos (UFSCar) in Brazil, has given rise to a biosensor capable of detecting pH changes in mammalian cells—which could be useful, for example, in studying diseases and assessing the...

phys.org

https://phys.org/news/2025-03-photoluminescence-nanoscale-insights-surface-metal.html

https://phys.org/news/2025-04-repurposed-smartphone-camera-sensors-real.html

https://phys.org/news/2025-03-nanomechanical-gas-sensor-arrays-smarter.html

https://medicalxpress.com/news/2025-04-ultrasound-reveals-capillaries-cells.html

https://phys.org/news/2025-04-super-resolution-imaging-technology-reveals.html

publiusr · 11 April 2025

Nacre-metal

Nacre-like ceramic-metal composite achieves superior strength and mass-production potential

Mollusks possess sturdy protective shells, thanks to their internal nacre structure. Nacre, the natural nanocomposite, demonstrates outstanding mechanical properties through both high strength and high toughness. Nacre, therefore, is expected to be applied in fields such as lightweight...

phys.org

Scientists advance a greener way to produce iron: Process could help cut carbon emissions in the steel industry

University of Oregon chemists are bringing a greener way to make iron metal for steel production closer to reality, a step towards cleaning up an industry that's one of the biggest contributors to carbon emissions worldwide. The research was published in ACS Energy Letters.

techxplore.com

https://techxplore.com/news/2025-04-rare-crystal-strength-3d-metal.html

glass

Making the physics of glass more transparent

For centuries, humans have made use of glass in their art, tools, and technology. Despite the ubiquity of this material, however, many of its microscopic properties are not well understood, and it continues to defy conventional physical description.

phys.org

Toughness--to slide

Frustration incorporated: How mismatched geometries can enhance material strength and toughness

Anyone who's ever tried tiling a floor, a backsplash or even an arts-and-crafts project probably knows the emotional frustration of working with pieces whose shapes don't perfectly complement each other. It turns out, though, that some creatures may actually rely on similar mismatches to create...

phys.org

How do bird nests stay together? Researchers unravel entanglement between stiff, straight rods

The concept of constructing a self-supporting structure made of rods—without the use of nails, ropes, or glue—dates back to Leonardo da Vinci. In the Codex Atlanticus, da Vinci illustrated a design for a self-supporting bridge across a river, which can be easily demonstrated using toothpicks...

phys.org

Scientists modulate 2D material properties via bending-induced interlayer sliding

A research group from the Ningbo Institute of Materials Technology and Engineering (NIMTE) of the Chinese Academy of Sciences has proposed a new strategy to precisely manipulate interlayer stacking orders and related properties in two-dimensional (2D) van der Waals layered materials via...

phys.org

From ketchup to concrete, rolling particles make suspensions more fluid

Lacquers, paint, concrete—and even ketchup or orange juice: Suspensions are widespread in industry and everyday life. By a suspension, materials scientists mean a liquid in which tiny, insoluble solid particles are evenly distributed. If the concentration of particles in such a mixture is very...

phys.org

Cooling device

Ultra-thin cooling solution for mobile devices unlocks slimmer, high-performance technology

Scientists from Nagoya University in Japan have developed an innovative cooling device—an ultra-thin loop heat pipe—that significantly improves heat control for electronic components in smartphones and tablets. This breakthrough successfully manages heat levels generated during intensive...

techxplore.com

Taking the heat off: Smarter cooling technology tackles climate challenge

EU researchers are developing a smarter system of sustainable cooling, replacing toxic refrigerants with safer, more efficient, and recyclable metals.

techxplore.com

'Patchy' thermogels show next-gen biomedical material potential, scientists say

Special biomedical materials that can be injected as a liquid and turn into a solid inside our bodies—called thermogels—could provide a less-invasive way to deliver drugs or treat wounds. Scientists at Penn State have developed a new design for these materials that further improves their...

phys.org

An odd effect

Serendipitous discovery boosts catalyst efficiency using hot car exhaust

Preparing catalysts by sending hot, steamy car exhaust over them could improve their efficiency and reduce the amount of rare and expensive metals required in vehicle catalytic converters and many other emission control and industrial processes.

phys.org

Water holding paper

Transparent paper-based material can hold boiling water and degrade in deep ocean in under a year

A team of biomaterial engineers, environmental resource specialists and industrial design researchers affiliated with a host of institutions across Japan has developed a biodegradable material that is clear and can hold boiling water—and it degrades in less than a year after settling on the...

phys.org

Fluid battery

A fluid battery that can take any shape

Using electrodes in a fluid form, researchers at Linköping University have developed a battery that can take any shape. This soft and conformable battery can be integrated into future technology in a completely new way. Their study has been published in the journal Science Advances.

techxplore.com

Molecule creation

AI method bridges language and chemistry for efficient, explainable molecule creation

The process of discovering molecules that have the properties needed to create new medicines and materials is cumbersome and expensive, consuming vast computational resources and months of human labor to narrow down the enormous space of potential candidates.

phys.org

Graphene membranes and coatings

Scalable graphene membranes could supercharge carbon capture

Capturing carbon dioxide (CO2) from industrial emissions is crucial in the fight against climate change. But current methods, like chemical absorption, are expensive and energy-intensive. Scientists have long eyed graphene—an atom-thin, ultra-strong material—as a promising alternative for gas...

phys.org

Plasma-synthesized photothermal material could enable efficient solar-powered water purification

Technology for converting solar energy into thermal energy is ever evolving and has numerous applications. A breakthrough in the laboratory of Professor My Ali El Khakani at Institut national de la recherche scientifique (INRS) has made a significant contribution to the field.

phys.org

dots

Reshaping quantum dots production through continuous flow and sustainable technologies

As the demand for innovative materials continues to grow—particularly in response to today's technological and environmental challenges—research into nanomaterials is emerging as a strategic field. Among these materials, quantum dots are attracting particular attention due to their unique...

phys.org

A new frontier in spintronics: Antiferromagnetic quasicrystals unveiled

Quasicrystals (QCs) are fascinating solid materials that exhibit an intriguing atomic arrangement. Unlike regular crystals, in which atomic arrangements have an ordered repeating pattern, QCs display long-range atomic order that is not periodic. Due to this 'quasiperiodic' nature, QCs have...

phys.org

Controlling quantum particle states through structural phase transition of crystals

A research team has successfully fine-tuned the Rabi oscillation of polaritons, quantum composite particles, by leveraging changes in electrical properties induced by crystal structure transformation. Published in Advanced Science, this study demonstrates that the properties of quantum particles...

phys.org

wood

Alpine craft: Scientists develop sustainable wood panels using traditional shingle-making techniques

Wooden shingles characterize the appearance of roofs and facades in the Alpine region and have been hand-crafted for generations. This centuries-old craft inspired researchers at Empa and ETH Zurich to use this very efficient wood separation method to produce new types of wood-based materials...

techxplore.com

publiusr · 16 April 2025

A big one today out of phys.org
"Hyperadaptor" alloy with stable properties stands strong across extreme temperatures."

'Hyperadaptor' alloy with stable properties stands strong across extreme temperatures

A research team at POSTECH (Pohang University of Science and Technology) has developed a new alloy that maintains its strength and ductility across extreme temperatures ranging from –196 °C to 600 °C. The findings, which have drawn attention from the aerospace and automotive industries, were...

techxplore.com

Nickel based as you might have guessed--the POSTECH guys say it is good across a temperature range from -196°C to 600° C.

Also in the news:

"Mechanically interlocked 2D chainmail unlocks smart polymers with shape shift capabilities."

Mechanically interlocked 2D chainmail unlocks smart polymers with shape-shifting capabilities

Researchers at Westlake University have disclosed a two-dimensional (2D) mechanically interlocked polymer (MIP) that mimics medieval chainmail at the molecular scale. This micrometer-scale 2D material exhibits exceptional flexibility and stiffness, potentially revolutionizing next-generation...

phys.org

Engineers develop eco-friendly plastic from mineral found in seashells

According to UNESCO, plastic waste makes up 80% of all marine pollution, with 8–10 million metric tons of plastic making its way into our oceans each year. USC Viterbi School of Engineering researchers have discovered a mineral commonly found in seashells could be the key to a safer plastic...

phys.org

Failure prediction

Predicting material failure: Machine learning spots early abnormal grain growth signs for safer designs

A team of Lehigh University researchers has successfully predicted abnormal grain growth in simulated polycrystalline materials for the first time—a development that could lead to the creation of stronger, more reliable materials for high-stress environments, such as combustion engines. A paper...

techxplore.com

Concrete in road tunnels decomposes unexpectedly fast

When seawater penetrates concrete in road tunnels, a biofilm is formed that breaks down the concrete. This can lead to high costs and the risk of damage if stone and concrete drop from the tunnel roof. In a new study, led by a team of researchers at Chalmers University of Technology in Sweden...

techxplore.com

Glowing gunshot residue: New method illuminates crime scene clues

Crime scene investigation may soon become significantly more accurate and efficient thanks to a new method for detecting gunshot residues. Researchers from the groups of Wim Noorduin (AMOLF/University of Amsterdam) and Arian van Asten (University of Amsterdam) developed the technique that...

phys.org

Customizable fluorescent nanoclays offer diverse applications

Imagine tiny LEGO pieces that automatically snap together to form a strong, flat sheet. Then, scientists add special chemical "hooks" to these sheets to attach glowing molecules called fluorophores.

phys.org

From disorder to order: Zero thermal expansion materials rejuvenate aging batteries

A team of scientists have developed zero thermal expansion (ZTE) materials. This innovation has achieved nearly 100% voltage recovery in aging lithium-ion batteries (LIBs). Their study is published in Nature.

techxplore.com

Heat manipulation

Additively manufactured heat exchanger beats out traditional designs

Billions of heat exchangers are in use around the world. These devices, whose purpose is to transfer heat between fluids, are ubiquitous across many commonplace applications: they appear in HVAC systems, refrigerators, cars, ships, aircraft, wastewater treatment facilities, cell phones, data...

techxplore.com

Ambisonics

Ambisonics algorithm helps create rich virtual soundscapes using a domed array of loudspeakers

Surround-sound speakers can immerse you in a multimedia experience, but what if there was a speaker that could completely re-create a three-dimensional soundscape?

techxplore.com

Rhinocrates · 20 April 2025

The New Scientist article might be paywalled.

Short version, a new technique for using mycelium and bacteria to grow bone or coral like building materials as a substitute for concrete. I wonder if by careful manipulation, one might create bone-like structures not just big heavy blocks. The applications for vehicle design and architecture would be amazing. Look up what was going in in the skeletons of azhdarchid pterosaurs for example.

Living material made from fungus could make buildings more sustainable

Researchers have used a fungus and bacteria to create rigid, living structures similar to bone and coral, which could one day be used as a self-repairing building material

www.newscientist.com

Redirecting

Engineered living materials (ELMs) are gaining attention because of their potential for sustainability and living properties, including self-healing, photosynthesis, and environmental responsiveness. While most ELMs are non-structural, biomineralized ELMs can be structural, offering reduced environmental impact compared to concrete while also offering living functionalities. However, challenges such as low microbial viability and a lack of complex internal structure have hindered the application of existing biomineralized ELMs. We created biomineralized ELMs using mycelium scaffolds, from Neurospora crassa, that were mineralized either by the fungus itself or by the bacterium Sporosarcina pasteurii. Self- and bacterially mineralized scaffolds retained microbial viability for at least 4 weeks when stored at 30°C. Biomineralization efficiency and mineral stiffness were greatest for bacterially mineralized scaffolds. To showcase their potential, mineralized mycelium scaffolds with internal geometries mimetic of cortical bone were fabricated. These results demonstrate how mycelium scaffolds can facilitate the production of biomineralized ELMs with greater viability and structural complexity.

publiusr · 21 April 2025

That might even be better than phytoremediation—want a ring station core? Plant a tree:

https://www.reddit.com/r/ThingsCutInHalfPorn/comments/m18em8/wood_knot_1080x1280

View: https://www.reddit.com/r/ThingsCutInHalfPorn/comments/m18em8/wood_knot_1080x1280/

It might be the best way to mine asteroids…spaceberg clickers…

Behavior-altering parasite - Wikipedia

en.m.wikipedia.org

cordycepts that cause the asteroid to brighten one side of itself so as to use Yarkovsky effects.

Oak galls can have five levels of parasitism….biological NAND gates.

publiusr · Friday at 15:20

On stainless steel

Ultrasonic nanocrystal surface modification restores stainless steel's corrosion resistance

Found in everything from kitchen appliances to sustainable energy infrastructure, stainless steels are used extensively due to their excellent corrosion (rusting) resistance. They're an important material in many industries, including manufacturing, transportation, oil and gas, nuclear power and...

phys.org

Ceramics

Advanced tungsten-based ceramics achieve high hardness and ablation resistance

A research team successfully synthesized tungsten carbide (WC) and tungsten boride (WB2) ceramics with excellent mechanical properties and ablation resistance.

phys.org

Engineer reinvents ceramics with origami-inspired 3D printing

In a breakthrough that blends ancient design with modern materials science, researchers at the University of Houston have developed a new class of ceramic structures that can bend under pressure—without breaking.

phys.org

Researcher investigates hydrogel-infused additive manufacturing of ceramics

Doctoral student Natalie Yaw came to Lawrence Livermore National Laboratory (LLNL) as a summer intern. But when her time at the Laboratory ended, her work did not. She took the lead to write a paper based on her findings, and the result was published in Inorganic Chemistry Frontiers.

phys.org

Resin danger

Some protective resin coatings may damage metal artifacts

Conservators and museum technicians protect precious archaeological metal objects, such as tools and weapons, with clear coatings, leaving preserved and unobstructed views of these detailed treasures.

phys.org

Novel electrochemical technique measures degradation rate of polymer coatings on iron

Think of a metal with paint on it, like an automobile or a pipeline carrying natural gas. The paint or polymer coating protects the metal underneath from degrading.

phys.org

Weather forecasting technique speeds up electrocatalyst degradation predictions

A NIMS research team has developed an approach capable of accurately and rapidly predicting the degradation behavior of electrocatalysts used in water electrolyzers by employing data assimilation—a method commonly employed in weather forecasting.

phys.org

Infrared spectroscopy with machine learning detects early wood coating deterioration

From the Japanese cypress to the ponderosa pine, wood has been used in construction for millennia. Though materials like steel and concrete have largely taken over large building construction, wood is making a comeback, increasingly being used in public and multi-story buildings for its...

phys.org

Silicone

Chemical recycling turns used silicones into pure building blocks, promising infinite reuse

A study conducted by CNRS researchers describes a new method of recycling silicone waste (caulk, sealants, gels, adhesives, cosmetics, etc.). It has the potential to significantly reduce the sector's environmental impacts.

phys.org

Metamaterial

Engineered metamaterial achieves both high strength and remarkable flexibility

In metamaterials design, the name of the game has long been "stronger is better." Metamaterials are synthetic materials with microscopic structures that give the overall material exceptional properties. A huge focus has been on designing metamaterials that are stronger and stiffer than their...

techxplore.com

Carbon nanotube-based strain sensor can detects deformations in multiple directions

Over the past decades, electronics engineers developed increasingly small, flexible and sophisticated sensors that can pick up a wide range of signals, ranging from human motions to heartrate and other biological signals. These sensors have in turn enabled the development of new electronics...

phys.org

Mathematical model modulates the anomalous Hall angle in a magnetic topological semimetal

When an electric current passes through some materials, it generates a voltage perpendicular to the direction in which the current is flowing and of an applied magnetic field. This physical phenomenon, known as the anomalous Hall effect, has been linked to the intrinsic properties of some materials.

phys.org

Colloidal crystal model reveals new factors in controlling polymorph formation

Polymorphs are not mythical, chimeric beasts—they are substances with identical chemical compositions but differing crystal structures that also exhibit different physical and chemical properties. What this means for practical use, is that companies often want to create a certain polymorph—but...

phys.org

Pipe flow

Using AI to monitor inaccessible locations of nuclear energy systems

Whether it's for your vehicle or your home, from small-scale uses to the largest, the debate over the most efficient and cost-effective fuels continues. Currently, there's no shortage of options either. Nuclear power provides an alternative to more conventional energy options but requires...

techxplore.com

Paint, surfaces and more

Superbug-fighting paint promises cleaner hospitals and safer public spaces

A bacteria-killing coating created by scientists has been used in trials of a new paint that can be applied to a range of surfaces to effectively kill bacteria and viruses, including difficult-to-kill species such as MRSA, flu and COVID-19.

phys.org

Hybrid surface combines hydrophobic nanowires and hydrophilic channels to prevent condensation flooding

Condensation is critical for applications like power generation, water harvesting, and cooling systems. However, traditional surfaces suffer from a drop in performance under high subcooling, when the surface temperature is much lower than the surrounding vapor. This leads to water flooding and...

phys.org

Quantum confinement explains the dramatic rise of electrical resistivity in few-nanometers-thick silicon sheets

Consumer electronic devices are made from materials that we have been using for more than 60 years, mainly silicon, germanium and copper. Why have semiconductor electronics become increasingly fast over this time?

phys.org

A crystal clear design for high-performance flexible thermoelectric semiconductors

QUT researchers have identified a new material which could be used as a flexible semiconductor in wearable devices by using a technique that focuses on the manipulation of spaces between atoms in crystals.

techxplore.com

How bacteria and textile fibers can heal bones

Have you ever wondered if there is a way to heal bones without having to take bone from another part of the body? A new doctoral thesis from the University of Borås, Sweden, now presents exciting advancements in this area. It involves using bacteria to produce fibers that can help heal bones.

phys.org

Magnetic force training helps AI take charge of material simulations

An international team of researchers has developed a new method for parameterizing machine-learning interatomic potentials (MLIP) to simulate magnetic materials, making the prediction of their properties much more reliable and accurate. A key feature of the new approach is that the models of...

phys.org

Machine learning unlocks superior performance in light-driven organic crystals

Researchers have developed a machine-learning workflow to optimize the output force of photo-actuated organic crystals. Using LASSO regression to identify key molecular substructures and Bayesian optimization for efficient sampling, they achieved a maximum blocking force of 37.0 mN—73 times more...

phys.org

AI uses extrapolative learning to master materials prediction beyond existing data

A research group has developed an innovative machine learning technology that enables predictions beyond the distribution of training data and demonstrated its effectiveness in materials research. The team includes Kohei Noda, a researcher at JSR Corporation, and Professor Ryo Yoshida at the...

phys.org

explosives

Understanding the precursor to detonation: Probing high-pressure deflagration with laser ignition experiments

Suddenly, there's a flash of intense light and heat, followed by a rapidly expanding fireball. Combustion of high explosives is everywhere in popular culture, and it's also critical for ensuring the safety and reliability of the U.S. stockpile.

phys.org

Researchers develop new design strategy for carbonized polymer dots to discriminate between TNT and TNP

2,4,6-trinitrotoluene (TNT) and 2,4,6-trinitrophenol (TNP) are stable explosives that can accumulate and pollute ecosystems, impacting environmental and human health. Therefore, sensitive and rapid on-site detection of TNT and TNP is essential for safety compliance.

phys.org

What new materials are there?

The Anti-Proxmire

The Anti-Proxmire

The Anti-Proxmire

ACCESS: Top Secret

The Anti-Proxmire

The Anti-Proxmire

The Anti-Proxmire

ACCESS: USAP

The Anti-Proxmire

ACCESS: USAP

ACCESS: USAP

The Anti-Proxmire

The Anti-Proxmire