Last update: 11 hours ago

Cracking a long-standing problem in high-entropy alloy nanoparticle synthesis

Nanomaterials news

Cracking a long-standing problem in high-entropy alloy nanoparticle synthesis

Composed of five or more elements in nearly equal amounts, high-entropy alloys (HEAs) have emerged as promising catalysts due to their compositionally complex surfaces that can accelerate chemical reactions. Until now, scientists ...

Nanomaterials

11 hours ago

Prototype thermal memory stores heat states with tiny voltages for days

Heat is a ubiquitous form of energy that, unlike others, is notoriously difficult to store due to its natural tendency to dissipate. While this property is essential for phenomena like solar energy reaching Earth, it also ...

Nanophysics

14 hours ago

Self-assembling luminophores reveal new design principle for efficient light-energy transport

In biological systems, especially for protein molecules, the formation of nanotubular structures is often guided by molecular folding. The folding process organizes interaction sites and enables the formation of complex architectures ...

Nanophysics

16 hours ago

Plastic texturing kills viruses when they land

Researchers have developed a thin plastic film that tears apart viruses on contact, offering a promising new way to keep high-touch surfaces such as smartphones and hospital equipment from spreading disease. The innovation ...

Bio & Medicine

18 hours ago

Mind the gap! The semiconductor industry is relying on the wrong materials

2D materials are widely seen as a promising path toward better computer chips. Researchers at TU Wien have now shown that some of these materials are unsuitable due to an underestimated effect. But there are alternatives.

Nanophysics

19 hours ago

Wafer-scale 2D magnetic films emerge thanks to a new low-defect growth technique

In a major advance, researchers at the Indian Institute of Science (IISc) have devised a method to grow high-quality 2D magnetic materials (2D-MMs) over centimeter-scale wafers. Earlier approaches in the field were limited ...

Nanomaterials

Apr 19, 2026

Zirconia thin films unlock new reversible nonpolar-to-polar mechanism

Researchers from National Taiwan University break traditional frameworks by unveiling a new symmetry-transition mechanism in ZrO2 thin films, achieving ultra-stable antiferroelectric behavior for up to 108 cycles.

Nanomaterials

Apr 18, 2026

Electrons crack open organic solar cells, exposing their hidden 3D molecular architecture in a single microscope

How do organic solar cells work on the inside? The answer lies in structures far too small to see—and difficult to access even with advanced techniques. So far, researchers have relied mainly on X-ray methods to understand ...

Nanophysics

Apr 15, 2026

Graphene as a charge mirror: Why water droplets 'see' graphene—but don't show it

Research on graphene has made great strides in recent years. However, to fully harness its potential in applications such as desalination membranes, sensors, and energy storage and conversion, a deeper understanding of the ...

Nanomaterials

Apr 14, 2026

126

AI-guided electron microscope provides unique glimpse into the world of MXenes

The use of artificial intelligence has enabled researchers at the National Laboratory of the Rockies (NLR) to gain a greater understanding of two-dimensional (2D) materials that can be useful for energy storage, water purification, ...

Nanomaterials

Apr 14, 2026

The once-theoretical skyrmion could unlock supercomputing memory

When looking to the future of information technology, researchers have pinpointed a once-theoretical particle-like structure: the skyrmion. Magnetic skyrmions are very stable structures found on micromagnetic materials that ...

Nanophysics

Apr 14, 2026

A new fruit wash removes pesticides and extends shelf life

University of British Columbia researchers have developed a natural, biodegradable wash that removed up to 96% of pesticide residue from fruit and slowed browning and moisture loss. This could mean safer apples, grapes and ...

Bio & Medicine

Apr 13, 2026

1869

Oxide-based sensor opens door to greener, faster, more accurate quality testing of food

An electrochemical sensor developed at Oregon State University holds promise for making food quality testing faster, more accurate, more environmentally friendly, and less expensive. The novel sensor, which also has potential ...

Bio & Medicine

Apr 13, 2026

Gold nanorod makes spinning light when struck off-center by an electron beam

Light, as we usually conceive of it, is defined by the astonishing velocity at which it moves from one point to another. For example, in just one second, light can travel most of the distance between Earth and the moon. This ...

Nanophysics

Apr 13, 2026

A nanoscale robotic cleaner can hunt, capture and remove bacteria

Tiny robots—around 50 times smaller than the diameter of a human hair—open up fascinating possibilities: they enable the controlled manipulation of objects far too small for human hands. This brings us closer to a long-standing ...

Bio & Medicine

Apr 11, 2026

162

AI chips could get faster with 30-nanometer embedded memory that cuts data shuttling

When we watch videos or ask AI questions, enormous amounts of data are constantly moving inside computers. In particular, data centers that support AI must process and transfer vast amounts of data at very high speeds. However, ...

Nanomaterials

Apr 10, 2026

Carbon nanotube fiber sensors achieve record measurement error below 0.1%

Skoltech scientists, in collaboration with colleagues from China and Iran, have taken a major step toward creating highly precise carbon nanotube fiber (CNTF)-based sensors. In a paper published in the iScience journal, the ...

Nanomaterials

Apr 9, 2026

Taming skyrmions: Atom-thin magnets point to ultra-dense, low-power memory

Data is growing at a staggering pace, pushing charge-based microelectronics, such as smartphones and laptops, to their physical limits. Spintronics—technology that uses electron spin rather than charge—avoids the limits of ...

Nanophysics

Apr 9, 2026

Momentum-engineered photonic states make bulk silicon shine

An international team of researchers, led by scientists from the University of California, Irvine, has demonstrated a fundamentally new way to make silicon emit light—overcoming one of the most persistent limitations in modern ...

Nanophysics

Apr 8, 2026

A roadmap for atomic force microscopy use in next-generation semiconductor and energy materials research

For smartphones and computers to become smaller and faster, technologies capable of precisely controlling electrical properties at the nanoscale—beyond what is visible to the naked eye—are essential. In particular, ferroelectric ...

Nanomaterials

Apr 8, 2026

Mars rover detects never-before-seen organic compounds in new experiment

38 minutes ago

Earthquake sets off brief tsunami alert and a megaquake advisory in northern Japan

20 minutes ago

World's largest collection of Olympiad-level math problems now available to everyone

16 hours ago

Finding a hidden highland culture in the mountains of southern Georgia

15 hours ago

Nanomaterials

Laser-modified graphene enables molecule-thick films to grow only where needed

Other news

Astrobiology

Mars rover detects never-before-seen organic compounds in new experiment

Archaeology

Finding a hidden highland culture in the mountains of southern Georgia

Archaeology

Archaeological mission in Oxyrhynchus has found Homer's 'Iliad' inside a Roman-era mummy

Plants & Animals

Disabled parrot is undefeated alpha male of his group thanks to novel 'beak jousting'

General Physics

Could the mathematical 'shape' of the universe solve the cosmological constant problem?

Astronomy

Six new isolated millisecond pulsars discovered with FAST

Quantum Physics

A long-sought quantum computing milestone arrives as fermionic atom gates top 99% accuracy

General Physics

Bringing quantum time into the lab—a single clock can run young and old at once

Biotechnology

Each protein in the epigenome produces a different pattern of gene expression, study finds

Archaeology

Brushstroke-mapping AI reopens a centuries-old mystery about one of El Greco's masterpieces

Biotechnology

AI model 'reads' protein pairs, unlocking new insights into disease and drug discovery

General Physics

LHC decay anomaly reveals possible crack in the Standard Model

Plants & Animals

Alkaline cement tiles boost baby coral survival from 12% to 52%

Planetary Sciences

What makes Mars' magnetotail flap? Two spacecraft point to magnetic reconnection

Cell & Microbiology

The physics of brain development: How cells pull together to form the neural tube

Analytical Chemistry

New AI method captures long-range atomic interactions in complex molecules

Condensed Matter

Sprinkling nanoparticles on spintronics

Social Sciences

For some Americans, their accent isn't just related to where they live

Evolution

Ant supergene reveals surprising twist in evolution of social behavior

Earth Sciences

Nitrogen isotope analysis reveals Southern Hemisphere waters dominated Indonesian Throughflow for 800,000 years

Nanophysics

Silicon nanospheres boost WS₂ second-harmonic generation 40-fold while preserving polarization

Nanomaterials

Polymer uses movable molecular rings to overcome durability–degradability trade-off

Nanophysics

Electronics of the future: Ultra-efficient graphene switch developed at nanometer scale

Bio & Medicine

New lipid nanoparticle design improves precision of mRNA vaccine delivery

Nanomaterials

Belt-like VO₂(B) single crystals unlock high-sensitivity gas detection at room temperature

Nanomaterials

Chaos as a matter of direction: Researchers build layered material where order and disorder coexist

Bio & Medicine

Nanoplastics become more harmful after being outdoors, study finds

Nanophysics

Designing better 2D electronics: Addressing anisotropic conductivity to cut contact resistance

Nanophysics

Clearing the nanoscale bottleneck holding back next-gen electronics

Bio & Medicine

Engineered nanoparticles show enhanced intrinsic luminescence for biomedical imaging and cancer treatment

Evolution

Cambrian microfossils reveal earliest known ringed worms from 535 million years ago

Biochemistry

Pure mycelium shoe debuts in Milan with a load-bearing fungal sole

Astrobiology

New device aims to protect the Earth from Martian microbes

Cell & Microbiology

Stem cell embryo model grows yolk sac without hypoblasts or gene editing

Analytical Chemistry

Chemists stabilize rare three‑atom metal ring, revealing new form of aromaticity

Archaeology

New genetic evidence from Stajnia Cave reveals the oldest Neanderthal group reconstructed in Central-Eastern Europe

Quantum Physics

Quantum gas resists heating under periodic kicks, revealing many-body localization mechanism

General Physics

Hypertriton appears more tightly bound than expected, sharpening the picture of nuclear forces

Optics & Photonics

Why ultrashort laser pulses could make low-power electron sources far more practical

Ecology

Australia's truffle industry may owe part of its success to a surprising underground secret

Graphene sealing enables first atomic images of monolayer transition metal diiodides

Two-dimensional (2D) materials promise revolutionary advances in electronics and photonics, but many of the most interesting candidates degrade within seconds of air exposure, making them nearly impossible to study or integrate ...

Nanomaterials

Feb 4, 2026

Nanocrystal biohybrids harvest light to reduce N₂ gas to ammonia

Ammonia, a key part of nitrogen fertilizers, is central to sustaining global food production. However, its manufacture is also energy intensive: Ammonia production requires 2% of global energy to meet global demand. Approximately ...

Bio & Medicine

Feb 4, 2026

Stacked graphene sandwich reveals switchable memory without traditional ferroelectrics

A research team led by Professor Youngwook Kim from the Department of Physics and Chemistry, DGIST, in collaboration with the research team of Professor Gil Young Cho at KAIST, have discovered a new memory principle that ...

The precise control of tiny droplets on surfaces is essential for advanced manufacturing, pharmaceuticals, and next‐generation lab‐on‐a‐chip diagnostics. However, once droplet volume reaches pico- and nanoliter scales, the ...

Nanophysics

Jan 30, 2026

117

Freestanding 3D MXene structures push the limits of microscale devices

In a breakthrough that could power next-generation electronics, sensors, and energy storage devices, CMU engineers have developed a fabrication technique that arranges MXene nanosheets, each a million times thinner than a ...

Nanomaterials

Jan 29, 2026