Angled-view photograph of the fully packaged device. The top (mechanical) chip is secured facedown to the bottom (qubit) chip by an adhesive polymer. Credit: Agnetta…
View More Stanford’s New Experimental Hardware Integrates Mechanical Devices Into Quantum Tech
Over the course of almost 60 years, the information age has given the world the internet, smart phones, and lightning-fast computers. This has been made…
View More Atomic Layer Etching Could Lead to Ever-More Powerful Microchips and Supercomputers
The solar cell with the ferrocene layer highlighted. Credit: Li et al. 2022 New solar cell devices that are cheaper and easier to make could…
View More New Materials Enable Cheaper Solar Cells That Are Easier To Make
MIT scientists develop a low-cost, high-precision fabrication method for thin mirrors and silicon wafers. A novel photolithography technique could be a manufacturing game-changer for optical…
View More MIT’s Low-Cost Fabrication Method for Thin Mirrors and Silicon Wafers Could Be a Game-Changer
This artist’s concept of NASA’s QueSST jet reflects the airplane’s final configuration following years of research and design engineering. The jet was constructed by Lockheed…
View More NASA’s X-59 Quiet Supersonic Experimental Aircraft Arrives Back in California Following Critical Ground Tests
Illustration of the working principle and device structure of the new color sensor design by Georgia State researchers. Credit: Graphic image from research team Using…
View More New “Electric Eye” Neuromorphic Artificial Vision Device Developed Using Nanotechnology
Schematic illustration of wirelessly charging a body-implanted electronic device using an ultrasonic probe. Credit: Korea Institute of Science and Technology (KIST) New technology improves the…
View More Using Ultrasonic Waves To Charge Underwater and Body-Implanted Electronic Devices
Researchers from Penn Engineering have now demonstrated a method for fabricating large-area “superlattices” — layered structures containing 2D lattices of sulfur and tungsten — that…
View More New Atomically Thin Material That Improves the Efficiency of Light-Based Tech: Solar Panels, Cameras, Biosensors
A graphene drum can reveal the sound of bacteria. Have you ever wondered if bacteria make distinctive sounds? If we could listen to bacteria, we…
View More What Do Bacteria Sound Like? Bacterial Soundtracks Revealed by Nanotechnology
Researchers have taken a step forward in developing an energy system that makes it possible to capture solar energy, store it for up to 18…
View More Capturing Solar Energy and Converting It to Electricity When Needed – Up to 18 Years Later