Amorphous oxide semiconductors like IGZO (indium gallium zinc oxide) offer acceptable carrier mobility with very low leakage. Amorphous oxides are especially attractive for stacked devices because ...

As global demand for sustainable energy surges, the performance ceiling of current battery technologies is increasingly tied to how efficiently ions ...

What's the first thing you did when you woke up this morning? Maybe you swung your legs over the side of your bed, placed ...

This new technology turns everyday carbon emissions into a useful chemical—right at the source, even from thin air.

Placing a thin layer of molybdenum disulfide on diamond enables current flow at room temperature, opening a new pathway for diamond-based electronic devices.

Achieving high-energy density remains a key objective for advanced energy storage systems. However, challenges, such as poor cathode conductivity, anode dendrite formation, polysulfide shuttling, and ...

Anyone who has ever had to get a magnetic resonance imaging (MRI) scan knows that magnetic and highly conductive materials ...

The breakthrough is based on a class of materials known as MXenes: ultrathin, highly conductive sheets that combine the mechanical resilience of metals with the flexibility ...

Researchers from the University of Konstanz studied how insect brains take in complex light stimuli and process them in parallel. They are the first ...

Physicists from University of Jyväskylä and Aalto University (Finland) have experimentally realized a two-dimensional topological crystalline insulator. This is a quantum material that has been ...

Abstract: In view of the low-frequency and strong line spectrum noise caused by the vibration of ship equipment, an active control double-layer vibration isolation system based on Kalman filter-fuzzy ...