Scientists working with an experimental class of materials have made a breakthrough that could shape a new generation of electronic devices. The researchers’ creation is likened to a conductive ...

Researchers at Chalmers University of Technology in Sweden recently presented a groundbreaking “recipe” that makes it easier ...

New metal-organic framework (MOF) materials based on gold nanoclusters have the potential to transform nanoelectronics. Four ...

Most modern semiconductors are fabricated of or on silicon (Si), but as devices get smaller and denser, they dissipate more ...

Researchers at the University of Minnesota have discovered a new material that could change technology as we know it. This nano-scale, thin-film material is transparent and extremely conductive. Many ...

Conductive plastics are developed by compounding thermoplastics with electrically conductive materials such as carbon or steel fibers, carbon nanotubes (CNTs) or graphite, and other additives to ...

Bioelectronics, such as implantable health monitors or devices that stimulate brain cells, are not as soft as the surrounding ...

Transparent conductive materials and devices have emerged as pivotal components in a wide range of applications, spanning from modern displays and photovoltaic cells to sensors and flexible ...

Thanks to advances in materials and electronics, we are starting to see how our clothing might one day do more than keep us warm or protect us from the elements. Scientists at Chalmers University of ...

Drexel researchers have developed a way to coat cellulose yarn with flakes of a type of conductive, two-dimensional material, called MXene, to imbue it with the conductivity and durability it needs to ...

There’s an old series of jokes that starts with: “How do you put an elephant in a refrigerator?” The answer is to open the door, put the elephant inside, and close the door. Most people don’t get that ...