Characterization news

Chemical ‘tug-of-war’ causes change between solid and liquid states

By mixing nanocrystals with polymers and ligands, scientists have found a way to switch between a liquid-like state and a solid-like state.

New advance lowers resistance to all-solid-state batteries

Novel all-solid-state batteries based on thin films benefit from low resistance at the interface between the electrode and the solid electrolyte.

‘Strange’ cuprates conduct electricity in strange way

Scientists have discovered that cuprates seem to carry electric current in an entirely different way to conventional metals such as copper.

Nanotube-reinforced graphene twice as tough as pristine graphene

Researchers have found that ‘rebar graphene’, in which graphene is reinforced with carbon nanotubes, is more than twice as tough as pristine graphene.

New quantum material could help usher in era of quantum computing

A novel quantum material composed of hafnium, tellurium and phosphorus is the first to have multiple quantum properties.

New study strengthens ties that bind in COFs

Researchers have used a chemical process discovered decades ago to make the linkages between covalent organic frameworks much sturdier.

New method allows optical fibers to hear surrounding materials

A new method allows optical fibers to identify the material they are in contact with by using a light beam within the fiber to generate a sound wave.

Biological imaging technique reveals secrets of dendrite growth

Using a form of Raman microscopy developed for biomedical studies, scientists have explored the mechanism behind dendrite growth in lithium batteries.

Complex crystalline structure produces faster-charging battery

Niobium tungsten oxides with a complex crystalline structure allow lithium ions to move through them at higher rates than typical electrode materials.

New synthesis method for 2D material produces unexpected result

The first experimental realization and structural investigation of 2D vanadium disulphide has revealed a new vanadium sulphide compound.

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Shock of the new neodymium-doped alumina crystals

By doping alumina crystals with neodymium ions, engineers have developed a new laser material that can emit ultra-short, high-power pulses.

Nanoscale imaging could lead to better artificial photosynthesis materials

Scientists have used a photoconductive atomic force microscope to better understand the nanoscale properties of artificial photosynthesis materials.

Firm findings about brittle mechanisms in nickel

By examining general grain boundaries, engineers have shed new light on the mechanisms behind sulfur embrittlement of nickel.

Fredy Zypman receives the 2018 Materials Today Embracing Challenge Award

Boundaries no barrier for borophene

Unlike with graphene, the boundaries between different structural phases of borophene, a 2D form of boron, retain the material's metallic nature.

Improving nuclear reactor performance is a gas

Nearly a third of the reaction products generated during fission of U235 in light-water reactors are unwanted gases.

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