Engineers design a device that operates like a brain synapse
Ion-based technology may enable energy-efficient simulations of the brain’s learning process, for neural network AI systems.
Ion-based technology may enable energy-efficient simulations of the brain’s learning process, for neural network AI systems.
Study finds simple changes in road resurfacing practices could improve gas mileage for heavy vehicles and reduce greenhouse gas emissions.
New roll-to-roll production method could enable lightweight, flexible solar devices and a new generation of display screens.
Engineers design nanoparticles that stimulate the immune system, helping it to attack tumors.
Technique paves the way for more energy efficient, 3D microprocessors.
Particle-scale phenomenon akin to the swerving of a curveball could allow selective separation of suspended nanomaterials.
Associate Professor Joseph Checkelsky wins $1.7 million Emergent Phenomena in Quantum Systems Initiative grant to pursue search for new crystalline materials.
Coal could someday be used to make a variety of useful devices, researchers suggest.
Carbon nanotubes embedded in leaves detect chemical signals that are produced when a plant is damaged.
Using magnetic nanoparticles, scientists stimulate the adrenal gland in rodents to control release of hormones linked to stress.
Physicists’ discovery could lead to a new family of robust qubits for quantum computing.
Technique may enable molecule-based quantum computing.
Translated into sound, SARS-CoV-2 tricks our ear in the same way the virus tricks our cells.
DNA-based self-assembling system sheds light on processes essential for semiconductors and nanotechnology.
Study shows that a simple urine test can reveal the presence of lung cancer in mice.