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When less is more: Scaling law explains why ultrathin materials get stronger as they get thinner

Nanotechnology news

When less is more: Scaling law explains why ultrathin materials get stronger as they get thinner

One of the most fascinating aspects of physics is that nature often behaves in ways that seem completely counterintuitive. A good example comes from ultrathin materials. If I take a sheet of material and make it thinner ...

Nanophysics

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7 hours ago

New tool to help build more reliable DNA nanostructures

Scaffolded DNA and RNA origami is a technique that allows scientists to build tiny, highly precise two- and three-dimensional objects. Because these nanostructures can interact naturally with biological systems, they could ...

Nanomaterials

8 hours ago

Chemical impurities make carbon surfaces superslippery, researchers find

Engineers often treat impurities as a problem to eliminate to improve material performance. But new research from Osaka Metropolitan University and Fraunhofer Institute for Mechanics of Materials IWM suggests that in some ...

Nanomaterials

16 hours ago

Organic molecule with ultranarrow emission spectrum could lead to better LEDs

Over the past several decades, light sources have gradually transitioned to light-emitting diodes, or LEDs, and inorganic LEDs are now used across a wide range of applications. In parallel, organic LEDs, or OLEDs, have become ...

Nanophysics

Jun 11, 2026

Quantum friction causes light to slow down nanoworld movements

A research team in Bochum, Germany has unexpectedly found that light can slow down movements in the nanoworld. This is due to quantum friction, a phenomenon that has been poorly understood until now. The findings are published ...

Nanophysics

Jun 11, 2026

Novel nanowire device offers rapid, noninvasive cancer detection

A research team in Japan has developed an efficient, minimally invasive cancer detection device that uses high-performance zinc oxide nanowires to selectively capture extracellular vesicles (EVs) from bodily fluids.

Bio & Medicine

Jun 11, 2026

'Janus-faced' nanomaterials pave the way for selectively capturing radioactive pollutants

A KAIST research team has succeeded, for the first time, in synthesizing the core raw material for fabricating asymmetric MXene, a so-called "Janus-faced" nanomaterial that can perform distinct functions because of differing ...

Nanomaterials

Jun 11, 2026

Silver nanoparticles pave the way for precise DNA cutting and joining

DNA is composed of long chains that act as the blueprint for living organisms. In genetic engineering, scientists cut DNA at specific sites and join the resulting fragments to other DNA sequences, enabling applications such ...

Bio & Medicine

Jun 10, 2026

80-atom boron 'buckyball' finally steps into nanotechnology's spotlight

The nanoscale world appears to have a new ball to kick around. Researchers from Brown University have shown the first experimental evidence for a "buckyball" molecule made from 80 boron atoms. The new structure is the cousin ...

Nanomaterials

Jun 10, 2026

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DNA tetrahedrons unlock sharper cancer targeting with vitamin E tweak

Conventional cancer treatments, such as chemotherapy, often lack specificity and can damage both cancerous and healthy cells, leading to severe side effects. With this in mind, researchers at Indian Institute of Technology ...

Bio & Medicine

Jun 10, 2026

Antibody-guided nanoparticles target blood cancer cells in bone marrow

New research co-led by Indiana University School of Medicine scientists presents a significant step toward more precise and effective cancer treatments by using a breakthrough method to deliver therapies directly to cancer ...

Bio & Medicine

Jun 10, 2026

Acidic nanoparticles target Parkinson's at cellular source

Inside every human cell, a tiny structure called a lysosome acts like a recycling center, breaking down toxic waste, clearing damaged proteins and helping keep the cell functioning properly. When that recycling center stops ...

Bio & Medicine

Jun 10, 2026

New iron–scandium catalyst extends carbon nanotube growth at high temperatures

Carbon nanotubes (CNTs) are among the most promising nanomaterials for future technologies because of their exceptional mechanical strength, electrical conductivity and thermal performance. However, translating these remarkable ...

Nanomaterials

Jun 10, 2026

Visualizing band structures in nanostructures: Extending band theory to imperfect periodic and bent systems

An international collaborative research group has developed a new computational method to visualize the electronic states of aperiodic nanomaterials as band structures through first-principles calculations on finite-sized ...

Nanomaterials

Jun 10, 2026

Q&A: Combating antibiotic resistance with nanotechnology, robotics and AI

Aeron Tynes Hammack, a physicist by training and currently interim facility director of the Nanofabrication Facility at the Molecular Foundry, likes to work with nanoscale objects to better understand the world and solve ...

Bio & Medicine

Jun 9, 2026

3D-printed nozzle array could streamline production of drug-delivery microparticles

MIT researchers have demonstrated a low-cost design for specialized electronic nozzles, called triaxial electrospray emitters, that could be used to manufacture time-release drug-delivery particles or self-healing materials ...

Bio & Medicine

Jun 9, 2026

Firefighters face a higher risk of skin cancer, but nano fabrics with tiny, rough fibers can help keep them safer

Wildland firefighters are exposed to a mix of harmful chemicals in the smoke they breathe and the ash and soot that gets on their clothing. Over long assignments fighting fires that can last for days to weeks, those chemicals ...

Nanomaterials

Jun 9, 2026

Medicinal plants yield carbon nanoparticles that glow red and flag toxic metals

What do iron, lead and nickel have in common? These heavy metals are an indispensable part of many industries. However, they also share a dark reality: They are serious environmental and public health threats. Every day, ...

Bio & Medicine

Jun 8, 2026

DNA design unlocks nanometer-scale catalyst control for cleaner hydrogen production

The fixed idea that DNA is only a molecule that stores genetic information is being challenged. KAIST researchers have developed a technology that controls the chemical environment around catalysts at the nanometer scale ...

Bio & Medicine

Jun 8, 2026

Van der Waals forces can play unexpected role in thin film properties

Researchers have demonstrated the ability to use van der Waals forces to tune the physical and electronic properties of ferroelectric thin films. The work opens the door to new techniques for engineering materials for use ...

Nanophysics

Jun 8, 2026

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