Optical materials news

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.

New study brings astronomical approach down to the nanoscale

Researchers have used a ‘multi-messenger’ approach to probe the properties of quantum materials at nanoscale resolutions.

New growth technique could bring space-age solar cells down to Earth

For the first time, scientists have managed to grow aluminum-based semiconductors for solar cells using hydride vapor phase epitaxy.

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

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

Improving disease control by changing fabric color

New color fabric approach that helps control its spread of disease

Holes can make silicon solar cells transparent

Researchers have found that opaque silicon solar cells can be made transparent by simply punching lots of tiny holes into them.

Polymer polarons produce plasmons

By taking advantage of polarons and plasmons, researchers have been able to develop optical nanoantennas from a conducting polymer.

Minuscule tweak can produce big increase in efficiency for organic solar cells

A new model has revealed how tiny tweaks to the molecular shapes in non-fullerene acceptors can improve the performance of organic solar cells.

Novel plastic material ‘learns’ to walk

A synthetic actuator made from thermo-responsive liquid crystal polymer networks and a coat of dye can learn to bend and walk in response to light.

Nanoparticles target tumor’s blood supply

drug-loaded silica nanoparticles target the blood vessels that supply tumors with oxygen and nutrients to ‘starve’ cancer cells

New Raman spectroscopy technique reaches down to the subnanoscale

A new Raman spectroscopy technique can assess the chemical composition and structure of metallic particles with a diameter of just 0.5nm to 2nm.

Perovskite nanocrystals don’t mind getting their hairs wet

By encapsulating perovskite nanocrystals in both silica and plastic hairs, researchers have enhanced their ability to withstand moisture.

Silver and gold help create multispectral photodetector

By placing silver nanocubes on a thin layer of gold above a pyroelectric material, researchers have created a new multispectral photodetector.

Co-Editor in Chief of Materialia receives highest German Research Award

German Research Foundation honours Dr. Baptiste Gault with Gottfried Wilhelm Leibniz Award

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.

New hybrid material allows perovskites to go lead-free

Researchers have developed new organic-inorganic hybrid perovskite materials that don't contain lead and have a much improved stability.