Last update:
Nanophysics news
Teaching AI to design optical surfaces using real-world imperfections
Designing surfaces that precisely control how light behaves at the nanoscale is tricky. Optical Fourier surfaces, which are nanostructured gratings that redistribute light into specific directions and wavelengths, hold enormous ...
Nanophysics
Jun 4, 2026
0
13
AI paired with tiny optical device corrects distorted light for sharper imaging
Blurry light from lens imperfections is a problem everywhere, from microscopes to telescopes to smartphone cameras. Using a tiny yet carefully engineered optical element and artificial intelligence, University of California ...
Nanophysics
Jun 4, 2026
0
28
Physics-trained digital 'super-brain' speeds nanophotonic design
Studying physics can be very useful—even when it comes to machine learning. A digital "super-brain" with built-in knowledge of the fundamental laws of nature can speed up the development of optical components for everything ...
Nanophysics
Jun 4, 2026
0
31
New route to tailor-made diamond nanoparticles holds promise for quantum applications
Nanodiamonds are tiny diamond particles only a few nanometers in size. Because they are chemically highly stable and can host so-called color centers, optically active defects in the crystal lattice, they are considered promising ...
Nanophysics
Jun 3, 2026
0
8
Whiskey chemistry propels microscopic machines through liquid
Whisky-inspired chemicals could help power a new generation of microscopic machines, according to researchers who have discovered a way to make tiny particles "swim" through liquid using compounds linked to the production ...
Nanophysics
Jun 3, 2026
0
9
Strain creates moiré 2D materials without twisting or stacking, opening more scalable route
Cornell researchers have developed a new way to create moiré patterns—atomic-scale structures that can give materials unusual quantum behaviors—without relying on the traditionally used difficult-to-control twisting and stacking ...
Nanophysics
Jun 2, 2026
0
26
Silver nanoparticles enable assembly of a theorized, previously unobserved crystal metallic structure
Using finely tuned nanoscale building blocks, researchers from Brown University and the University of Michigan College of Engineering have stabilized a fleeting structural phase of matter that had been predicted theoretically ...
Nanophysics
May 28, 2026
0
76
Metamaterials enable control of heat transfer at nanoscale, potentially transforming energy and electronics
Heat behaves in predictable ways: a hot cup of coffee cools, a laptop warms your hands, the sun heats Earth. But at scales thousands of times smaller than a human hair, those rules begin to break down, and scientists are ...
Nanophysics
May 27, 2026
0
48
Tiny on-chip circuit could power next-generation quantum and AI technologies
Researchers from Monash University have developed a breakthrough nanoscale circuit that can generate, direct, and read light-based information, all on a single chip.
Nanophysics
May 26, 2026
0
49
When order gives way to chaos—the turbulent birth of magnetic nanovortices
Magnetic switching processes are considered a prime example of controllable physics at the nanometer scale: in certain thin-film systems, a short electrical current pulse is sufficient to reverse the magnetization in a targeted ...
Nanophysics
May 24, 2026
0
28
Imaging ellipsometry tracks MXene thin-film quality during fabrication without damage
A German–Israeli research team led by Dr. Andreas Furchner has demonstrated how imaging ellipsometry enables non-destructive characterization and quality control of microstructured MXene thin films during device fabrication. ...
Nanophysics
May 22, 2026
0
30
Stressed crystal creates nanoscale patterns on chip materials at room temperature
A new chip-making technique exploits a material's crystal structure to create nanoscale patterns at room temperature directly onto hard materials used in devices, including silica. The method could make it easier to pattern ...
Nanophysics
May 22, 2026
0
61
Chiral carbon nanotube films deliver giant light-conversion effect
A sheet of twisted carbon nanotubes has revealed a hidden talent scientists suspected for decades but had never managed to measure. Researchers at Rice University have created large, highly ordered films of chiral carbon ...
Nanophysics
May 20, 2026
0
66
Quantum-scale simulations and AI uncover promising 2D perovskites for future energy tech
Researchers at Clarkson University are advancing the use of artificial intelligence and computational physics to accelerate discovery of next-generation materials for quantum technologies, optoelectronics, and renewable energy ...
Nanophysics
May 19, 2026
0
16
Chemical pathway unlocks next-generation infrared III–V nanocrystals
A research team led by Professor Sohee Jeong at Sungkyunkwan University has uncovered a key chemical pathway for the controlled synthesis of III–V semiconductor quantum dots, a class of next-generation infrared materials ...
Nanophysics
May 18, 2026
0
10
Exploiting interfacial ionic mobility to make heat-moldable nanoparticle aggregates
If you have ever warped a cheap plastic cup by pouring coffee into it, then you have witnessed thermoplasticity in action. Thermoplasticity is the ability of a material to become pliable under heating. In industry, thermoplasticity ...
Nanophysics
May 15, 2026
0
26
Honey-like heat flow: A new heat transport regime discovered in ultrathin semiconductors
Controlling heat flow is a major challenge for many technologies. In electronic and photonic devices, for example, heat dissipation can limit the performance and efficiency, as well as their potential for further miniaturization. ...
Nanophysics
May 15, 2026
0
21
Researchers identify stability range for piezoelectric glycine using nanoconfinement
Have you ever wondered if the simple building blocks of life could one day power our wearable electronics? Glycine, the simplest amino acid found in our bodies, has a superpower in its β-phase form: it is highly piezoelectric, ...
Optical meta‑conveyors enable programmable nanomanipulation along arbitrary open paths
The task of gently transporting a microscopic particle from one point to another along a winding path, and then bringing it back using nothing more than a single, compact chip is a challenge we set out to address in our new ...
Gold nanoparticles that behave like a liquid open path to adaptive materials
When inorganic nanoparticles come together, their optical, electronic, and magnetic properties depend strongly on how they are arranged. Being able to reorganize these arrangements in a controlled way could therefore provide ...
Nanophysics
May 13, 2026
0
40
More news
Other news
Medieval pandemic left a hidden legacy in Europe's oldest trees
Previously unknown detoxification pathway for chloromethane revealed
A new strategy for assembling π-conjugated panels into square molecules revealed
