Toward more flexible and rapid prototyping of electronic devices
FlexBoard is a flexible breadboard that enables rapid prototyping of objects with interactive sensors, actuators, and displays on curved and deformable surfaces.
FlexBoard is a flexible breadboard that enables rapid prototyping of objects with interactive sensors, actuators, and displays on curved and deformable surfaces.
A new low-temperature growth and fabrication technology allows the integration of 2D materials directly onto a silicon circuit, which could lead to denser and more powerful chips.
The device, which uses electricity to boost hormone production in the stomach, could help to ease nausea and counteract appetite loss.
Researchers demonstrate a low-power “wake-up” receiver one-tenth the size of other devices.
A new system enables makers to incorporate sensors into gears and other rotational mechanisms with just one pass in a 3D printer.
New repair techniques enable microscale robots to recover flight performance after suffering severe damage to the artificial muscles that power their wings.
“Introduction to Physical Computing for Artists” at the MIT Student Art Association teaches students to use circuits, wiring, motors, sensors, and displays by developing their own kinetic artworks.
The second annual student-industry conference was held in-person for the first time.
The device could help workers locate objects for fulfilling e-commerce orders or identify parts for assembling products.
19th Microsystems Annual Research Conference reveals the next era of microsystems technologies, along with skiing and a dance party.
The chip, which can decipher any encoded signal, could enable lower-cost devices that perform better while requiring less hardware.
The receiver chip efficiently blocks signal interference that slows device performance and drains batteries.
A wireless technique enables a super-cold quantum computer to send and receive data without generating too much error-causing heat.
Stacking light-emitting diodes instead of placing them side by side could enable fully immersive virtual reality displays and higher-resolution digital screens.
A quick electric pulse completely flips the material’s electronic properties, opening a route to ultrafast, brain-inspired, superconducting electronics.