A recent study published in Nature Communications demonstrates precise control over electron spatial arrangement in two ...

As the global semiconductor industry enters the so-called 2-nanometer process era, the actual size of transistors—the core ...

A transdisciplinary Northwestern University research team has developed a revolutionary transistor that is expected be ideal for lightweight, flexible, high-performance bioelectronics. The ...

KAIST researchers have developed a simulation-based method to predict how small future transistors can ...

Integrated circuits (ICs) serve as the basis of computers, tablets, smartphones, and other technology that enhances our daily life. For around 60 years, those circuits have been made from silicon with ...

New technical paper titled “Multi-functional multi-gate one-transistor process-in-memory electronics with foundry processing and footprint reduction” from researchers at Ningbo Institute of Materials ...

Nanoscale 3D transistors made from ultrathin semiconductor materials can operate more efficiently than silicon-based devices, leveraging quantum mechanical properties to potentially enable ...

The WISE research group (Wearable, Intelligent, Soft Electronics) at The University of Hong Kong (HKU-WISE) have addressed a long-standing bioelectronic challenge: the development of soft, 3D ...

Engineers at MIT have produced the smallest three-dimensional transistor ever reported, a device so compact that a chip ...

Fig. 1: Possible phases of M 2 CT 2 MXenes based on metal coordination. The alternative text for this image may have been generated using AI. For the device simulation, a bias voltage ranging from ...

The semiconductor industry is under growing pressure to deliver more capable technologies while reducing development time, ...

Nothing is worse for a design team than a chip that fails to work in the bringup lab. Electrical problems are historically a major cause of such failures. Power leaks, power-ground DC paths, missing ...