Sculpting complex, 3D nanostructures with a focused ion beam
Researchers at RIKEN and collaborators develop innovative method to craft switchable diodes from topological magnets.
Solar hydrogen can now be produced efficiently without the scarce metal platinum
Researchers at Chalmers University of Technology develop cost-effective method using conductive plastic for sustainable hydrogen production.
Super strain-resistant superconductors
Kyoto University researchers discover strain-resistant properties of strontium ruthenate, challenging conventional superconducting theories with innovative techniques.
When will quantum technologies become part of everyday life?
Researchers at the University of Chicago explore scaling challenges and compare six leading quantum hardware platforms.
Powered by mushrooms, living computers are on the rise
Researchers at The Ohio State University explore mushroom-based computing, offering eco-friendly alternatives to traditional semiconductors.
Black metal could give a heavy boost to solar power generation
University of Rochester researchers developed a solar thermoelectric generator with efficiency 15 times greater than current technology.
Researchers document first images of the atomic fingerprint of heat in quantum materials
University of Maryland scientists capture unprecedented atomic-scale thermal vibrations, unveiling hidden dynamics in two-dimensional quantum materials.
Smart amplifier enabler for more qubits in future quantum computers
Chalmers University of Technology develops energy-efficient amplifier, reducing power consumption by 90% to enhance qubit performance.
World’s first non-silicon 2D computer developed
Researchers at Penn State unveil groundbreaking 2D CMOS computer, utilising atom-thick materials for enhanced efficiency.
Solitonic superfluorescence paves way for ambient temp quantum computing
North Carolina State University researchers discover soliton formation mechanism, enabling room-temperature quantum states for advanced technologies.