Characterization news

Porous scaffold makes a good home for blood stem cells

highly porous polymer foam that mimic bone marrow drives the differentiation of blood-forming stem cells

New dealloying method produces sponge-like metal materials

Scientists have developed a new approach for making metal-metal composites and porous metals with a ‘bicontinuous’ structure in thin films.

Two phases and four wells found in single crystal

Scientists have discovered two co-existing phases in a layered, copper-containing crystal that are connected through a quadruple energy well.

Organic compound harvests ‘hot electrons’ from perovskite semiconductor

Scientists have found an organic compound that can harvest the 'hot electrons' produced when high-energy photons hit a perovskite semiconductor.

Cooper pairs responsible for superconductor acting like a regular metal

The electron pairs responsible for the abilities of superconductors can also conduct electricity with some amount of resistance, like metals do.

Bending not so simple for multilayer graphene

Scientists have found that multilayer graphene is stiff when bent a little, but becomes much softer when bent a lot, as the layers slide past each other.

Drug dust bust

Magnetic levitation separates chelated drugs

Open Call - Materials Today Chemistry: Special Issue on FINAEC (Functional Interfaces based Nanomaterials for Applications in Environment and Chemistry)

Deadline Extended for the 2020 Robert Cahn Award

Perovskite materials like a bit of disorder

Perovskite materials for use in next generation solar cells and flexible LEDs can be more efficient when their chemical compositions are less ordered.

Why do some crystals shrink when they’re heated?

By analyzing the atomic structure of scandium fluoride, scientists have discovered why certain crystalline materials shrink when they're heated.

New technique provides unprecedented insight into crystallization

Using computer modeling and a novel imaging technique, scientists have been able to study the self-assembly of crystalline materials at a high resolution.

Diffuse diffraction means perfect graphene

Scientists have found that a broad diffraction pattern can help determine whether graphene and other 2D materials are structurally perfect.

Cracking the mystery of nature’s toughest material

Using an electron microscope, scientists have uncovered the mechanisms that make nacre, also known as mother-of-pearl, so hard and resilient.

Kirigami-inspired sensors take the strain

kirigami-inspired design allows graphene-based sensor devices to withstand large strains

Oxygen atoms form unexpected bonds on graphene

New materials could arise from the unexpected discovery of unusual configurations of oxygen and nitrogen on graphene.

New analysis technique brings battery cathodes to order

A new technique for probing the crystalline microstructure of battery cathodes can reveal the short-term order of the ions in these materials.

New lensless technique spies new properties in old materials

Scientists have used a novel technique called lensless microscopy to uncover previously unknown abilities in nickel and barium hexaferrite.