Characterization CHANGE TOPIC

Characterization news, August 2023

By using the fluorescent properties of hexagonal boron nitride, researchers have traced the paths of individual molecules within nanofluidic structures.

Researchers have developed best-practice guidelines for evaluating the performance of radiative-cooling materials.

A new technique uses a combination of viscosity and electrochemical impedance measurements to determine the dispersibility of electrode slurries.

Researchers have confirmed that protons can permeate through graphene, via wrinkles that stretch the graphene lattice.

Researchers have created a designer quantum material that features a quasiparticle made of entangled electrons known as a triplon.

Researchers have visualized the microscopic behavior of interacting electrons that gives rise to the insulating quantum phase of twisted bilayer graphene.

Researchers have confirmed that the 'seed' particles used to grow gold nanoparticles are actually 32-atom spherical molecules known as gold buckyballs.

industrial thermoplastic composite waste can be recycled into filaments for additive manufacturing

Advanced functionalities of non-collinear antiferromagnets

new family of low density TiMgLi-based compositionally complex alloys promise hydrogen storage at room temperature

Researchers have shown that placing a curved ribbon of graphene onto a flat sheet of graphene offers a novel way to explore the field of twistronics.

Researchers have shown that magnetic moments in non-collinear antiferromagnets will respond differently to magnetic fields and electric currents.

Researchers have discovered that electrons move through the interior of a quantum anomalous Hall insulator, rather than at the edges.

Scrambling electron spins in a layered antiferromagnet with a light pulse leads to an ultrafast mechanical response across the entire sample.

Researchers have found a way to tune the spin density in diamond, changing it by a factor of two, by applying an external laser or microwave beam.

Using an array of microelectrodes, researchers have shown that cracks in cathode particles can actually help to reduce battery charge time.

Researchers have discovered that, in the absence of corrosion, lithium forms a 12-sided figure known as a rhombic dodecahedron on electrode surfaces.

adding a bulky cation to a perovskite improves the stability and efficiency of solar cells

Researchers have grown high-quality thin films of a novel superconductor and shown that it can withstand high magnetic fields.

A novel robot called RoboMapper can conduct experiments more efficiently and sustainably to develop new semiconductor materials with desirable properties.

News archive…

Connect with us