Materials

Researchers have discovered a material that can switch between an insulator and a conductor freely, even at room temperature. The material, a compound of manganese and sulfide (MnS2), starts off as an insulator but becomes conductive under pressure.

Spider silk is one of nature’s most impressive materials, exhibiting impressive strength and toughness. Now, researchers at Washington University in St. Louis claim to have created an artificial version that can outperform some natural spider silks.

A group of scientists has come up with a novel coating for everyday cotton that gives it a broader set of useful traits, enabling it to repel oil and water with ease, and most impressively, float even when bearing loads many times its own weight.

Researchers in China have demonstrated a new form of plastic that degrades in just a week when exposed to sunlight and oxygen, which they believe could make for electronics that are easier to dispose of at the end of their lives.

Scientists at Finland's VTT Technical Research Centre have been developing an alternative leather made from fungi, and have now demonstrated a way to produce continuous sheets of the stuff at commercial scales.

Researchers have created a new alloy made up of not two, but five different metals, and put it to work as a catalyst. The 2D material was able to convert carbon dioxide into carbon monoxide, potentially helping to turn the greenhouse gas into fuels.

Thermoelectric generators produce an electric current through a temperature gradient. Now, engineers have created a new device that absorbs heat from the Sun on one surface and emits it from another, allowing it to generate electricity day and night.

A new method converts carbon from a variety of sources straight into useful forms such as graphene or diamond. The technique uses a “flash” of electricity to heat the carbon, converting it into a final form determined by the length of the flash.

Australian researchers have created what may be one of the most thermally stable materials ever discovered. This remarkable advanced material, made of scandium, aluminum, tungsten and oxygen, doesn't change in volume at all between 4 and 1,400 Kelvin.

Silicon is vital to all of the electronics that our modern world is built on. Now, research led by the Carnegie Institution for Science has developed a way to create a new form of silicon with a unique hexagonal structure.

Scientists have worked out a way to embed active enzymes in plastic that can give it different capabilities, such as an ability to break down proteins on the surface or degrade itself to avoid polluting the environment.

Recent research projects have demonstrated how the wonder material graphene could play a role in stronger, more eco-friendly concrete, and now we're seeing the first real-world deployment of the technology in the foundations of a new gym in the UK.