Last update: 11 hours ago

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

Nanophysics news

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

An international research team from Switzerland, Denmark, Germany, Croatia, Norway, Spain and Japan has made a significant breakthrough in understanding ultrafast electronic dynamics, revealing the profound impact of aqueous ...

Nanophysics

11 hours ago

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 ...

Nanophysics

Mar 25, 2025

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."

Nanophysics

Mar 25, 2025

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 ...

Nanophysics

Mar 24, 2025

103

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

A moiré pattern appears when you stack and rotate two copies of an image with regularly repeating shapes, turning simple patterns of squares or triangles into a groovy wave pattern that moves across the combined image in ...

Nanophysics

Mar 24, 2025

Study reveals controlled proton tunneling in water trimers

A research team led by Professor Hyung-Joon Shin from the Department of Materials Science and Engineering at UNIST has succeeded in elucidating the quantum phenomenon occurring within a triangular cluster of three water molecules. ...

Nanophysics

Mar 24, 2025

Graphene quantum dots mimic orbital hybridization

A research team led by Professor Sun Qing-Feng in collaboration with Professor He Lin's research group from Beijing Normal University has achieved orbital hybridization in graphene-based artificial atoms for the first time.

Nanophysics

Mar 21, 2025

141

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

Researchers from Pohang University of Science and Technology (POSTECH) and the University of Montpellier have successfully synthesized wafer-scale hexagonal boron nitride (hBN) exhibiting an AA-stacking configuration, a crystal ...

Nanophysics

Mar 20, 2025

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

In the effort to build superconducting quantum computers, researchers around the world are working to develop electrical circuits that operate in the microwave domain using individual particles of microwave radiation (microwave ...

Nanophysics

Mar 20, 2025

Electrons travel one of two routes in nano-biohybrid systems

Peanut butter and jelly. Simon and Garfunkel. Semiconductors and bacteria. Some combinations are more durable than others. In recent years, an interdisciplinary team of Cornell researchers has been pairing microbes with the ...

Bio & Medicine

Mar 18, 2025

108

Ion pairing with gold complexes offers new path for organic electronics

Unsubstituted π-electronic systems with expanded π-planes are highly desirable for improving charge-carrier transport in organic semiconductors. However, their poor solubility and high crystallinity pose major challenges ...

Nanophysics

Mar 18, 2025

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

When light interacts with metallic nanostructures, it instantaneously generates plasmonic hot carriers, which serve as key intermediates for converting optical energy into high-value energy sources such as electricity and ...

Nanophysics

Mar 17, 2025

Tellurium boosts 2D semiconductor performance for faster photodetection

A group of Carnegie Mellon University researchers recently devised a method allowing them to create large amounts of a material required to make two-dimensional (2D) semiconductors with record high performance. Their paper, ...

Nanophysics

Mar 17, 2025

Light-powered artificial neurons mimic brain-like oscillations

International Iberian Nanotechnology Laboratory (INL) researchers have developed a neuromorphic photonic semiconductor neuron capable of processing optical information through self-sustained oscillations. Exploring the use ...

Nanophysics

report

Mar 17, 2025

128

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

By taking two flakes of special materials that are just one atom thick and twisting them at high angles, researchers at the University of Rochester have unlocked unique optical properties that could be used in quantum computers ...

Nanophysics

Mar 17, 2025

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

Biomolecular condensates are shifting blobs in our cells that organize cellular matter. They are distinct molecular communities made of DNA, RNA and proteins that "condense" molecules to key locations, yet they frequently ...

Bio & Medicine

Mar 14, 2025

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.

Nanophysics

Mar 12, 2025

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 ...

Nanophysics

Mar 12, 2025

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 ...

Nanophysics

Mar 12, 2025

Scientists discover smart way to generate energy with tiny plastic beads

An international team of researchers has discovered a new method to generate electricity using small plastic beads. By placing these beads close together and bringing them into contact, they generate more electricity than ...

Nanophysics

Mar 11, 2025

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