Researchers have developed innovative ‘water batteries’ that offer a safe, recyclable alternative to lithium-ion batteries for large-scale energy storage. These aqueous metal-ion batteries use water…
View More Impressive Capacity and Extended Lifespan – Scientists Have Invented Recyclable “Water Batteries” That Won’t Catch FireImpressive Capacity and Extended Lifespan – Scientists Have Invented Recyclable “Water Batteries” That Won’t Catch Fire
Navigating the Graphene Maze: Health, Environment, and Innovation
The “Graphene Flagship” initiative has investigated the effects of graphene (blue) and related materials on health and the environment. Colored scanning electron microscopy. Credit: Empa…
View More Navigating the Graphene Maze: Health, Environment, and InnovationCaltech’s PAVT: Seeing Deep Blood Flow Without a Single Cut
Caltech researchers have developed a revolutionary medical imaging technology, photoacoustic vector tomography (PAVT), that noninvasively images deep blood vessels and analyzes blood flow. This groundbreaking…
View More Caltech’s PAVT: Seeing Deep Blood Flow Without a Single CutGroundbreaking New Tiny Power Converters Run on Vibrational Energy
A new piezoelectric-based DC-DC converter, developed by researchers from UC San Diego and CEA-Leti, significantly reduces size and increases efficiency by centralizing power switches on…
View More Groundbreaking New Tiny Power Converters Run on Vibrational EnergyThe Future of Energy – Scientists Unveil Roadmap for Bringing Perovskite/Silicon Tandem Solar Cells to Market
KAUST scientists have developed a roadmap for commercializing highly efficient perovskite/silicon tandem solar cells, promising a future of affordable clean energy. Addressing challenges from real-world…
View More The Future of Energy – Scientists Unveil Roadmap for Bringing Perovskite/Silicon Tandem Solar Cells to MarketThe Magic Behind True One-Way Glass: A Breakthrough in Optical Metamaterials
The magnetic properties of a material can affect how it interacts with light. Credit: Ihar Faniayeu/University of Gothenburg Researchers have discovered how to make an…
View More The Magic Behind True One-Way Glass: A Breakthrough in Optical MetamaterialsSupernatural Strength: 3D Printed Titanium Structure Is 50% Stronger Than Aerospace Alloy
PhD candidate Jordan Noronha holding a sample of the new titanium lattice structure 3D printed in cube form. Credit: RMIT A 3D printed ‘metamaterial’ boasting…
View More Supernatural Strength: 3D Printed Titanium Structure Is 50% Stronger Than Aerospace AlloyUnlocking the Secrets of Dynamic Piezoelectricity in Ferroelectric Hafnia
An international research team has discovered that the piezoelectric properties of Hf0.5Zr0.5O2 capacitors can be dynamically altered by external electrical cycling, leading to the inversion…
View More Unlocking the Secrets of Dynamic Piezoelectricity in Ferroelectric HafniaBeyond Moore’s Law: New Strategy for Developing Highly Versatile Electronics With Outstanding Performance Discovered
Researchers at City University of Hong Kong have introduced a groundbreaking approach in semiconductor technology using mixed-dimensional transistors. This innovation paves the way for more…
View More Beyond Moore’s Law: New Strategy for Developing Highly Versatile Electronics With Outstanding Performance DiscoveredRevolutionizing Real-Time Data Processing: The Dawn of Edge AI
Edge computing receives a significant boost from a new optical device developed by researchers from the Tokyo University of Science, capable of real-time signal processing…
View More Revolutionizing Real-Time Data Processing: The Dawn of Edge AI