Last update: Apr 15, 2025

Earth's magnetic field impact on fluid flow revealed for the first time

Nanophysics news

Earth's magnetic field impact on fluid flow revealed for the first time

The Earth's magnetic field quietly supports life on the planet and now, for the first time, its invisible powers have been used to create new nanoparticles and materials.

Nanophysics

Apr 15, 2025

Microscopy method breaks barriers in nanoscale chemical imaging

Today's super-resolution microscopes have made it possible to observe the nanoscale world with unprecedented detail. However, they require fluorescent tags, which reveal structural details but provide little chemical information ...

Nanophysics

Apr 14, 2025

Researchers develop full-color-emitting upconversion nanoparticle technology for ultra-high RGB display quality

Dr. Ho Seong Jang and colleagues at the Extreme Materials Research Center at the Korea Institute of Science and Technology (KIST) have developed an upconversion nanoparticle technology that introduces a core@multi-shell nanostructure, ...

Nanophysics

Apr 11, 2025

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, ...

Nanophysics

Apr 11, 2025

Chiral plasmonic nanostructures push the limits of light manipulation on the nanoscale

Researchers from ICMAB are revolutionizing how we manipulate light at the nanoscale using chiral plasmonic structures—nanomaterials designed to interact with polarized light in extraordinary ways.

Nanophysics

Apr 10, 2025

Gold nanoclusters reveal magnetic spin's potential role in catalytic efficiency

Recently, a team of researchers from the Hefei Institutes of Physical Science of the Chinese Academy of Sciences (CAS) consecutively removed the innermost atom and the outermost electron of a gold nanoparticle—without disturbing ...

Nanophysics

Apr 9, 2025

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 ...

Nanophysics

Apr 9, 2025

Nitrogen and argon plasma boosts performance of carbon-based supercapacitor electrodes

Scientists from Skoltech, the Institute of Nanotechnology of Microelectronics, RAS, and other research centers have refined the understanding of how plasma treatment of carbon-based electrodes affects the key characteristics ...

Nanophysics

Apr 3, 2025

Nanostructuring MOF crystals unlocks their potential, retaining electrical properties with enhanced sensitivity

Scientists at IMDEA Nanociencia are working on the development of materials whose properties can change as easily as we flip a switch. They focus on joining molecular switching (spin transition), electrical transport properties ...

Nanophysics

Apr 3, 2025

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 ...

Nanophysics

Apr 1, 2025

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 ...

Nanophysics

Apr 1, 2025

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 ...

Nanophysics

Apr 1, 2025

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Artificial muscles spring into action with mandrel-free fabrication technique

Researchers at The University of Texas at Dallas have invented a new, inexpensive method for fabricating artificial muscles for potential use in robots, in comfort-adjusting jackets that become more thermally insulating as ...

Nanophysics

Mar 31, 2025

Three-site Kitaev chain enhances stability of Majorana zero modes

An international research team led by QuTech has realized a three-site Kitaev chain using semiconducting quantum dots coupled by superconducting segments in a hybrid InSb/Al nanowire. When comparing two-and three-site chains ...

Nanophysics

Mar 31, 2025

Defect removal technique paves the way for faster, low-power semiconductors

A research team, led by Professor Jimin Kwon from the Department of Electrical Engineering at UNIST, in collaboration with Professor Yong-Young Noh and his research team from the Department of Chemical Engineering at POSTECH, ...

Nanophysics

Mar 31, 2025

Time-resolved photoluminescence unlocks nanoscale insights into surface-modified metal oxide semiconductors

In the quest for next-generation energy, sensing, and pigment technologies, semiconducting metal oxides like titanium dioxide (TiO₂) have emerged as essential materials due to their abundance, stability, and intriguing ...

Nanophysics

dialog

Mar 31, 2025

Scientists uncover how microswimmers move faster in groups, paving way for tiny drug-delivering robots

Scientists have revealed how tiny swimming cells—such as sperm and bacteria—are able to move faster when traveling as a group, and the research could accelerate the development of microscopic robots that deliver drugs ...

Bio & Medicine

Mar 28, 2025

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 ...

Nanophysics

Mar 27, 2025

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 ...

Nanophysics

Mar 27, 2025

Transistor reshapes electronic properties of a 2D material

A RIKEN study shows that squeezing the right amount of potassium ions between the atomic layers of molybdenum disulfide can turn it from a semiconductor into a metal, superconductor or insulator. The same layered material ...

Nanophysics

Mar 27, 2025

Rare exoplanet orbits twin stars in 'Star Wars'-like twist

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UK dog owners prefer crossbreeds and imports to domestic pedigree breeds, study finds

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Glowing gunshot residue: New method illuminates crime scene clues

4 hours ago

The complex origin story of domestic cats: Research points to Tunisia

10 hours ago

Antikythera Mechanism's intricate gears: Simulations of ancient astronomical device reveal potential jamming issues

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More news

Nanophysics

Physics meets art: A new twist on interference patterns

Nanophysics

Ultrafast X-ray study reveals solvation suppresses electronic rearrangement in pyrazine

Nanophysics

Magnetic 'microflowers' enhance local magnetic fields

Nanophysics

Ultra-precision sensor technology developed for single-molecule detection

Nanophysics

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

Nanophysics

Study reveals controlled proton tunneling in water trimers

Nanophysics

Moiré than meets the eye: Phasons enable interlayer excitons to move at low temperatures for quantum stability

Nanophysics

Graphene quantum dots mimic orbital hybridization

Nanophysics

Overcoming stacking constraints in hexagonal boron nitride via metal-organic chemical vapor deposition

Nanophysics

Low-noise transducers can bridge the gap between microwave and optical qubits

Bio & Medicine

Electrons travel one of two routes in nano-biohybrid systems

Nanophysics

Ion pairing with gold complexes offers new path for organic electronics

Nanophysics

Light-powered artificial neurons mimic brain-like oscillations

Nanophysics

Advancing light-to-electricity energy conversion: New method extends lifespan of plasmonic hot holes

Nanophysics

Twisting 2D materials creates artificial atoms that could advance quantum computers

Nanophysics

Tellurium boosts 2D semiconductor performance for faster photodetection

Bio & Medicine

Biomolecular 'silly putty': High-res imaging of cellular condensates achieved using fluorogen technology

Nanophysics

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

Nanophysics

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

Nanophysics

Decoding nanomaterial phase transitions with tiny drums

Other news

Analytical Chemistry

Glowing gunshot residue: New method illuminates crime scene clues

Archaeology

The complex origin story of domestic cats: Research points to Tunisia

Astronomy

Antikythera Mechanism's intricate gears: Simulations of ancient astronomical device reveal potential jamming issues

Paleontology & Fossils

First Caribbean 'dirt ant' found in 16-million-year-old amber

Bio & Medicine

Golden eyes: How gold nanoparticles may one day help to restore people's vision

Analytical Chemistry

Crystallography-informed AI achieves high performance in predicting novel crystal structures

Plants & Animals

Team captures first confirmed footage of a baby colossal squid

Nanomaterials

Customizable fluorescent nanoclays offer diverse applications

Quantum Physics

Study realizes symmetry-protected molecular qubits based on cold polyatomic molecules

Astronomy

Why some meteor showers are so unpredictable

Cell & Microbiology

Cytoskeletal filament formation: Scientists discover new details about vimentin filaments critical for wound healing

Agriculture

Study links climate change to rising arsenic levels in paddy rice, increasing health risks

Molecular & Computational biology

European potato genome decoded: Researchers find small gene pool with large differences

Plants & Animals

Gorillas in Congo's Nouabalé-Ndoki National Park scratch the ground for truffles, not for insects as long assumed

Planetary Sciences

Earth's magnetic pole shift: Sunscreen, clothes and caves may have helped Homo sapiens survive 41,000 years ago

Astrobiology

Crystal clues on Mars point to watery and possibly life-supporting past

Economics & Business

'Ban-the-Box' policy did not effectively help job applicants with criminal records, analysis finds

Cell & Microbiology

Giant virus discovered in Finland

Evolution

Woodrats' immunity to snake venom changes with the weather, researchers discover

Plants & Animals

UK dolphin deaths correlate with elevated sea temperature and chemical contaminants

Nanophysics

Scientists discover smart way to generate energy with tiny plastic beads

Nanophysics

2D semiconductor sensor: Gold nanoparticles boost optical signal efficiency

Nanophysics

'Nanodot' control could fine-tune light for sharper displays and quantum computing

Nanophysics

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

Nanophysics

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

Nanophysics

Quantum dot discovery for LEDs brings brighter, more eco-friendly displays

Nanophysics

Nanodiamonds in water droplets boost quantum sensing precision

Nanophysics

3D imaging technique captures dynamic atomic shifts in nanoparticles, revealing unexpected structural phases

Nanophysics

Single-qubit sensing puts new spin on quantum materials discovery

Nanophysics

Antiferromagnetic neuromorphic memory: New spintronic device achieves brain-like memory and processing

Astronomy

'Cosmic radio' detector could discover dark matter within 15 years

Cell & Microbiology

Microbes in Brooklyn superfund site teach lessons on fighting industrial pollution

Condensed Matter

Chirality induces giant charge rectification in a superconductor

Condensed Matter

Multivalley semiconductor enables optical switching in germanium for high-speed computing and communications

Plants & Animals

Bonobos refuse to participate when faced with unequal rewards

Cell & Microbiology

Simulating protein structures involved in memory formation

Earth Sciences

Using vibrations to see into Yellowstone's magma reservoir

Cell & Microbiology

Cell movement without myosin: New mobility mechanism challenges dogma

Cell & Microbiology

Innovative computational tool uses long-read sequencing to track antibiotic resistance genes

Optics & Photonics

Physicists develop compact, mid-infrared pulse generator on single chip

New approach for tuning current flow in 2D MOF nanosheets shows promise for advanced electronics

Researchers led by Prof. Cunlan Guo at Wuhan University have pioneered a new approach to control the electrical properties of two-dimensional (2D) metal-organic frameworks (MOFs), specifically porphyrinic 2D MOF nanosheets, ...

Nanophysics

Nov 7, 2024

Quasiperiodicity changes the ground-state properties of 1D narrow-band moiré systems, study demonstrates

Moiré materials, such as twisted bilayer graphene, are materials generally formed by stacking two or more layers of 2D materials on top of each other with a small lattice mismatch. This slight mismatch creates a unique pattern ...

Nanophysics

feature

Nov 7, 2024

A single atom can change the directional profile of the light emitted in scanning tunneling microscopes

Researchers from Madrid explain a phenomenon that allows the direction of light emission to be controlled at the atomic scale. The paper provides a detailed explanation of how the profile of the light collected in a scanning ...

Nanophysics

Nov 5, 2024

Researchers develop high-quality nanomechanical resonators with built-in piezoelectricity

Researchers at Chalmers University of Technology in Sweden and at the University of Magdeburg in Germany have developed a novel type of nanomechanical resonator that combines two important features: high mechanical quality ...

Nanophysics

Nov 5, 2024

Unlocking next-gen chip efficiency: Researchers confirm thermal insights for tiny circuits

In a leap toward more powerful and efficient computer chips, researchers at the University of Virginia have confirmed a key principle governing heat flow in thin metal films—a critical component in the race to design faster, ...

Nanophysics

Nov 4, 2024

Chiral molecular self-assemblies that absorb light boost singlet fission process, research demonstrates

In organic molecules, an exciton is a particle bound pair of an electron (negative charge) and its hole (positive charge). They are held together by Coulombic attraction and can move within molecular assemblies. Singlet fission ...

Nanophysics

Nov 1, 2024

Fundamental quantum model recreated from nanographenes

The smallest unit of information in a computer is the bit: on or off, 1 or 0. Today, the world's entire computing power is built on the combination and interconnection of countless ones and zeros. Quantum computers have their ...

Nanophysics

Oct 31, 2024

Researchers observe stick-slip phenomenon in carbon nanotube fibers

The shapes of simple polyatomic molecules such as carbon dioxide and methane are characterized by a specific symmetry depending on the manner of linking of the atoms. Nano- to micrometer-sized particles that mimic the shapes ...

Nanophysics

Oct 30, 2024

AI-enhanced technique illuminates materials reactions at nanoscale

Kory Burns, a professor at the University of Virginia School (UVA) of Engineering and Applied Science, is a materials science researcher who is using artificial intelligence to improve materials characterization. He and his ...

Nanophysics

Oct 24, 2024

Graphene-based memristors move a step closer to benefiting next-generation computing

Researchers from Queen Mary University of London and Paragraf Limited have demonstrated a significant step forward in the development of graphene-based memristors and unlocking their potential for use in future computing ...

Nanophysics

Oct 24, 2024

101

Novel platform integrates 2D polaritons with detection system for miniaturized spectrometers

Polaritons are coupled excitations of electromagnetic waves with either charged particles or vibrations in the atomic lattice of a given material. They are widely used in nanophotonics because of their ability to confine ...

Nanophysics

Oct 22, 2024

Viscous electronics: Fluid-like electrons are unlocking new tech possibilities

In high school science class, we learned that plugging a cable into an electrical circuit sets off a flow of electrons, powering everything from our lights to our phones. Traditionally, we've understood how electrons behave ...

Nanophysics

Oct 21, 2024

164

Controlling sound waves with Klein tunneling improves acoustic signal filtration

In the context of sensory modalities, eyes work like tiny antennae, picking up light, electromagnetic waves traveling at blistering speeds. When humans look at the world, their eyes catch these waves and convert them into ...

Nanophysics

Oct 18, 2024

111

Fast-responding colorimetric sensor for real-time monitoring has expanded color gamut

Colorimetric sensors detect environmental changes by intuitively shifting colors, easily visible to the naked eye without the need for additional equipment. Furthermore, they operate with zero power consumption. By shifting ...

Nanophysics

Oct 18, 2024

Adaptive ferroelectric materials show promise for energy-efficient supercomputing

Researchers have revealed an adaptive response with a ferroelectric device, which responds to light pulses in a way that resembles the plasticity of neural networks. This behavior could find application in energy-efficient ...

Nanophysics

Oct 16, 2024

Researchers achieve tunable coherent population trapping in a double quantum dot system

A research team has achieved coherent population trapping (CPT) in a semiconductor double quantum dot (DQD) system.

Nanophysics

Oct 16, 2024

Diamond bonding technique could improve both quantum and conventional electronics

Synthetic diamond is durable, inert, rigid, thermally conductive and chemically well-behaved—an elite material for both quantum and conventional electronics. But there's one problem. Diamond only likes diamond.

Nanophysics

Oct 16, 2024

Research team creates hybrid resonant metasurfaces with configurable structural colors

"Color is crucial," as pop artist Roy Lichtenstein famously said, but the significance of color extends far beyond art. From the creation of Prussian blue—the first synthetic pigment—to quantum dots in modern display ...

Nanophysics

Oct 15, 2024

Researchers discover tunable 2D electron gas at heterointerface of 5d iridates

Recently, Professor Yang Xiaoping's research group at the High Magnetic Field Laboratory, the Hefei Institutes of Physical Science of the Chinese Academy of Sciences, discovered a tunable and controllable monoatomic layer ...

Nanophysics

Oct 15, 2024

3D printing method could improve micro energy storage

One key to making portable devices more compact and energy efficient lies in the precise nanoscale form of energy-storing capacitors. Researchers in Sweden report they've cracked the challenge with a unique 3D printing method.

Nanophysics

Oct 14, 2024

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