Materials Science news, December 2014

A new range of GaN biosensors?

Researchers have found a way of binding peptides to the surface of gallium nitride (GaN).

Instant-start computers

A team at Cornell University has made a breakthrough in that direction with a room-temperature magnetoelectric memory device.

Top 5 materials news from 2014

Happy New Year from the team here at Materials Today!

Improving rechargeable batteries with graphene oxide paper

An engineering team has discovered some of graphene oxide's important properties that can improve sodium- and lithium-ion flexible batteries.

Conducting polymer makes promising biomaterial

A novel conductive, easy-to-process polymer synthesized could be promising for bio-applications such as bionic devices.

Bacteria-enabled nanofiber FETs

New approach makes Ti implant more like bone

Densified porous titanium scaffolds loaded could improve mechanical properties and bioactivity of implants in orthopedics and dentistry.

New form of ice could help explore exciting avenues for energy production and storage

The discovery of a new form of ice could lead to an improved understanding of our planet’s geology.

How ‘hot’ monomers affect thin-film formation

Researchers havr devised the first detailed model to quantify what they believe was the last unknown characteristic of film formation.

Defects are perfect in laser-induced graphene

Researchers have created flexible, patterned sheets of multilayer graphene from a cheap polymer by burning it with a computer-controlled laser.

Plugging light leaks

Engineers have demonstrated a way to trap light, using a phenomenon called bound states in the continuum (BIC).

Organic electronics for cheap, wearable medical sensors

Future fitness trackers could soon add blood-oxygen levels to the list of vital signs measured with new technology developed.

Metamaterials in bits

Tuning permittivity using pairs of meta materials.

Top 10 Materials News from November 2014

What happened in Materials Science in November 2014?

A coating that protects against heat and oxidation

A coating technique developed to protect turbine engine and waste incinerator components against heat and oxidation.

A step forward for smart windows?

Multilayer windows that are self-cleaning, energy-saving and anti-fogging may be one step closer, thanks to a team of Chinese researchers.

Discovery sheds light on nuclear reactor fuel behavior during a severe event

A new discovery about uranium dioxide will help scientists select the best computational model to simulate severe nuclear reactor accidents.

New hydrolyzable polymer could lead to cheaper biomaterials

Inexpensive hydrolyzable polymer could help in biomedicine and degradable materials.

Re-paper

Rewritable paper that works with photomasks and ultraviolet.

Metallic lattices offer new approach to super thin lenses

Super thin lenses could find use in both consumer electronics and bioimaging.