Confined molecules inside carbon nanotubes polarize under gate voltage, creating transistors with three stable logic states from a single material system.

A single MXene-based optical gate switches between seven Boolean logic functions via voltage, enabling trainable photonic ...

But the reliability of these billion-transistor systems often depends on a much simpler and frequently overlooked block: the Reset Controller. An SoC is only as reliable as its ability to power up ...

Applied Materials introduced semiconductor manufacturing gear designed to create the world's most advanced logic chips. AMAT ...

With SRAM failing to scale in recent process nodes, the industry must assess its impact on all forms of computing. There are ...

Half-bridge eGaN buck designs deliver high efficiency and flexibility, supporting next-generation aerospace systems ...

Researchers have built working transistors from graphene nanoribbons less than a nanometer wide, achieving room-temperature switching performance that silicon struggles to match at similar scales. The ...

Detailed price information for Veeco Instrument (VECO-Q) from The Globe and Mail including charting and trades.

Why smarter charging, battery management, and power conversion are now the real differentiators in EVs and edge systems.

Researchers at ETH Zurich have realized particularly stable quantum logical operations with qubits made of neutral atoms.

Nerve cells have the ability to self-organize into strongly interacting networks, even when grown in a Petri dish. Controlling the geometry of such cell cultures might be all that is needed to set up ...

Gordon Moore's prediction made over 40 years ago, that the number of transistors in an integrated circuit would double roughly every 24 months, continues to be the guiding principle of the ...