Crystalline materials news

Sparks don’t fly with novel growth mechanism

A new method for growing thin layers of the semiconductor gallium nitride can produce high-power transistors.

Gold triangles make titanium dioxide slab go all nonlinear

Second-order nonlinear optical effects can be induced in a titanium dioxide slab by covering it in gold triangles.

Scientists discover ripple in development of complex oxides

Scientists have found a way to study the structure and properties of the underside of a freestanding complex oxide thin film.

Aqueous electrolyte and novel electrode produce better battery

By using aqueous electrolytes with a novel electrode, researchers have been able to produce a safe, cost-efficient battery that still performs well.

Liquid crystal molecules branch out into strange structures

Droplets containing chain-like liquid crystal molecules with different lengths can transform into complex shapes when the temperature drops.

Novel polymer sponge likes to soak up oil

A novel polymer sponge covered in nanocrystalline silicon can remove over 90% of oil microdroplets from wastewater within 10 minutes.

Nanocrystals put new face on oxygen reduction

nanocrystal core-shell catalyst for fuel cells uses less Pt but drives the oxygen reduction reaction more efficiently and is more durable

Winner of the 2019 Materials Today Innovation Award announced

2019 Materials Today Innovation Award recognizes the development of high-quality growth methods for III-V compound semiconductor materials

Novel polymer can keep cool as the heat rises

A novel polymer can quickly transform from a thermal conductor to an insulator, and back again, in response to temperature changes.

Diamond anvil cells put pressure on material analysis

Turning natural atomic flaws inside diamond anvils into quantum sensors offers a novel way to study the effects of pressure on materials.

Announcement of 2019 Materials Today Agents of Change Award Recipients

Battery synthesis study produces degrading findings

A study into the synthesis of cathode materials for high-energy lithium-ion batteries has unexpectedly revealed why these materials degrade during use.

Unscheduled detours could lead to faster charging batteries

Defects in the crystalline lattice of lithium-ion battery cathodes can speed up the rate of charge and discharge by forcing lithium ions to take detours.

Electron ‘road map’ could reveal route to new materials

Using a novel detwinning technique, researchers have been able to produce a map of the electronic states in the superconductor iron selenide.

Novel MIT design strategy leads to discovery of new MoON

A novel design strategy for identifying new materials exhibiting a metal-insulator transition has led to the discovery of molybdenum oxynitride.

Unusual defects could offer way to control semiconductor

Using an electron microscope, researchers have, for the first time, seen atomic scale defects that dictate the properties of a promising semiconductor.

New titanium-copper alloy proves ideal for 3D printing

Researchers have developed a new copper-titanium alloy for 3D printing that is much less prone to cracking or distortion than other titanium alloys.

Investigating cancer by growing tumours in the lab

Lab-grown mini-tumours with a network of functioning blood vessels will assist understanding of cancer and drug testing