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When Sound Becomes A 3D Printing Tool
By positioning the sound source closer to the surface, researchers achieve enhanced resolution and repeatability in microscale 3D printing on deformable substrates.
Researchers at Concordia...
Design Automation For Stretchable Electronics
By uniting predictive modelling with robot driven experimentation, researchers accelerate the search for flexible conductors capable of withstanding extreme mechanical strain.
Researchers at the University...
Ultra-Compact Radar Chip Advances 6G
0.24 mm² low-power FMCW design targets 6G sensing-communication convergence in edge electronics.
Tokyo scientists have unveiled a tiny radar-on-chip prototype that could reshape future wireless...
Micro-LED Leap Enables Next Displays
KAIST’s red micro-LED advancement pushes AR/VR visuals toward ultra-high resolution and energy-efficient electronics.
High-resolution, energy-efficient display tech has taken a significant step forward as researchers...
“We Bring Brain-Like Intelligence Directly To Sensors For Ultra-Low-Power AI Processing”- Sumeet Kumar, Innatera
As sensor data overwhelms the cloud, Innatera’s neuromorphic chips bring always-on, ultra-low-power AI directly to the edge. But how? Sumeet Kumar from Innatera explains...
Crystalline Silicon For Flexible Bioelectronics
By thinning silicon to the nanoscale, researchers enable conformal, high performance electronics for long term health monitoring and therapeutic applications.
Silicon has long been the...
Pushing Component Size Limits
What happens when electronic parts become hard to see? A new method shows how engineers can fit more functions onto the same circuit board.
There...
“The Future Of AI Computing Can Now Run On A Battery-Powered Device” – GP Singh, Ambient Scientific
What if AI could deliver the accuracy of digital computing while using only a fraction of the power? How close are we to a...
Compact Optical Amplifier Boosts Electronics
Stanford researchers unveil an efficient chip-scale optical amplifier that could transform data communications, biosensing, and mobile tech.
Stanford University physicists have developed a chip-sized optical...
Phonon Laser Enabling Single-Chip Wireless Processing
Scientists have developed a chip that creates earthquake-like vibrations, promising smaller, faster, and more energy-efficient wireless devices for the next generation of gadgets.
As mobile...