Characterization news, May 2023

Colloidal gels not like glass

Researchers have discovered how colloidal liquids transform into a gel and shown that it doesn't occur via glass formation.

New electrolyte material identifies as both solid and liquid

Researchers have discovered that a candidate solid electrolyte material known as argyrodite has a hybrid crystalline-liquid atomic structure.

Atom probe tipped for success in bone analysis

atomic-scale composition of regrowing bone in a bioceramic scaffold revealed for the first time using an atom probe

Crystals not always so regular

By analyzing polymer nanoparticles with X-ray scattering, researchers have discovered that crystal structures are not always regularly arranged.

Wave goodbye to vibrations

Researchers have discovered that the emergence of a charge density wave in a copper-oxide superconductor quenches atomic vibrations.

Magnetic vortices form in antiferromagnet

Researchers used magnetic imaging techniques to map the structure of newly formed magnetic vortices in an antiferromagnet.

Structural analysis of anionic Pt(0) complexes achieved

Stabilization by electron-accepting boron compounds helps structural analysis of anionic Pt(0) complexes

New method takes magic-angle graphene for a spin

Researchers have developed a novel method for measuring the spin of electrons in ‘magic-angle’ twisted bilayer graphene.

Shine a light on growing cells

Researchers have developed a non-invasive method for counting the live cells in a three-dimensional hydrogel scaffold.

How to identify the optimal plasma treatment time for different surfaces

Novel catalyst adds a tang to carbon capture

A novel catalyst with a low proportion of copper is able to convert captured carbon into acetic acid with great efficiency and selectivity.

SQUID game reveals superconducting properties of 2D material

Using a state-of-the-art magnetic imaging technique, researchers have characterized a key property of a 2D superconducting material.

Fleeting defects caught in the act

Using a unique form of X-ray imaging, researchers have managed to identify transient crystal defects in the cathode of a sodium-ion battery.

New AI model can see beneath the surface

A novel machine-learning method can detect internal structures, voids and cracks inside a material by utilizing data about the material’s surface.

Hard finding about soft materials

Using a high-powered microscopy technique, researchers have uncovered a new metric for understanding how soft materials yield to stress.

Vibrations not so good in solid-state batteries

Researchers have discovered that vibrations at the electrolyte-electrode interface in solid-state batteries can cause lithium ions to move slowly.

Polybot drives electronic polymer research

A new scientific tool called Polybot combines artificial intelligence with robotics to discover novel electronic polymer materials.