Characterization news

‘Deep learning’ agents quickly discover characteristics of 2D materials

‘Deep learning’ agents can accurately determine a 2D material's physical characteristics, such as strength, from minimal data on its structure.

Exotic phosphorene nanoribbons could find wide range of applications

Researchers have synthesized tiny, individual, flexible phosphorene nanoribbons from crystals of black phosphorous and lithium ions.

Model shows how copper ‘islands’ become squashed under graphene ‘blanket’

Scientists have developed a model for predicting the shape of metal ‘islands’ sandwiched between or below 2D materials such as graphene.

Rearranging atoms point the way to novel nanomaterials

Scientists used advanced microscopy to monitor atoms as they rearrange in real-time during the synthesis of intermetallic nanoparticles.

Phase-switching liquids can help switch off ice formation

Researchers have found that phase-switching liquids can delay ice and frost formation up to 300 times longer than state-of-the-art anti-ice coatings.

Laser light and frustration create stable supercrystal

By exciting ‘frustrated’ crystalline materials with laser light, a team of researchers has managed to transform them into a stable ‘supercrystal’.

Spiral staircase leads to best topological conductor ever

Researchers have discovered the strongest topological conductor yet, in the form of thin crystal samples with a spiral-staircase structure.

New test pinpoints catalysts’ activity

fast-screening of potential non-noble metal two-dimensional catalysts for hydrogen evolution reaction

Scientists discover why nickel-rich materials feel degraded in lithium-ion batteries

Scientists have identified the causes of degradation in a nickel-rich layered cathode material in lithium-ion batteries, as well as possible remedies.

Growing crystal islands communicate with previous layers

Scientists have discovered the islands that form a new layer in a crystalline material tend to form in a pattern similar to the preceding layer.

Diffusion in metallic glass multilayer films

Novel polymer runs hot and cold over light-induced phase change

A novel type of polymer can alter its thermal conductivity by switching between a crystalline state and a liquid state in response to light.

New X-ray technique reveals motion of atoms in 2D material

Scientists have used a new technique called ultrafast surface X-ray scattering to visualize the motion of atoms in a 2D material.

Lobster inspires soft but strong body armor

underbelly of lobsters could hold clue to developing a tough, strong and flexible material for body armor and other applications

Additive manufacturing caught on camera

ultrafast X-ray imaging gives an insight into exactly what is happening during additive manufacturing of metal structures

Double-helix structure helps polymer stay strong

Researchers have discovered that a high-strength polymer called PBDT has a rare double-helix structure.

Graphene and gold shine light on protein-based diseases

By combining graphene with nano-ribbons of gold, researchers have developed an ultrasensitive biosensor for detecting disease-causing proteins.

‘Tuning knob’ turns 2D semiconductors into quantum materials

The twist angle between layers of 2D semiconductors provides a ‘tuning knob’ to turn them into an exotic quantum material.