The idea of a living organism replacing a silicon chip inevitably evokes science-fiction scenarios. However, a recent study reveals that fungal networks can exhibit electrical behaviors akin ...

Researchers have demonstrated that the layered multiferroic material nickel iodide (NiI2) may be the best candidate yet for devices such as magnetic computer memory that are extremely fast and compact ...

(Nanowerk Spotlight) The human brain processes complex information while consuming merely the power of a dim light bulb. This remarkable efficiency stems from synapses, the connections between brain ...

A new study reveals that insulating buffer layers are no longer needed for ultrathin magnetic racetrack devices, unlocking new paths for seamless integration with functional substrates. Modern ...

Illustration of the similarity between a CuMnAs-based antiferromagnetic analog memory device and a biological synapse. As electronic devices generate increasing amounts of waste heat, interest in ...

Up to this point, explanations have not fully grasped how memristors retain information without a power source, known as nonvolatile memory, because models and experiments do not match up. “While ...

With transistors and logic gates as our basic building blocks, we can begin to construct the actual circuits that make up computer memory. One of the simplest memory circuits is the AND gate, which ...

A technical paper titled “Low-Power Charge Trap Flash Memory with MoS 2 Channel for High-Density In-Memory Computing” was published by researchers at Kyungpook National University, Sungkyunkwan ...