How Machine Learning is Driving Atomic-Scale Material Simulations A team at Harvard SEAS has broken new ground with a machine learning framework that predicts how materials respond to electric fields and delivers quantum-level accuracy for massive simulations, exten... Allegro-pol atomic scale computational modeling electric fields machine learning materials discovery materials science quantum simulation
P-Wave Magnetism: MIT's Breakthrough that Could Transform Computing At MIT, the direct observation of p-wave magnetism , a newly identified form of magnetism that could redefine the landscape of data storage and processing through spintronics. Understanding P-Wave Mag... magnetism materials science memory devices MIT nickel iodide physics quantum technology spintronics
MIT Team is Using AI To Revolutionize Sustainable Concrete Recipes Concrete shapes the modern world, but the environmental impact of its main ingredient, cement, continues to trouble scientists and builders. The need for lower-carbon alternatives is urgent, yet sifti... artificial intelligence circular economy concrete construction machine learning materials science sustainability
MIT's Method for 3D Printing Complex Designs with Minimal Waste Imagine a world where creating intricate medical devices or mechanical parts becomes seamless, efficient, and environmentally friendly. MIT engineers have turned this vision into reality with a breakt... 3D printing additive manufacturing engineering innovation materials science recycling sustainability
3D Printing Breakthrough Unlocks Custom High-Temperature Superconductors Picture a world where custom-shaped superconductors fuel next-generation magnets, medical devices, and transportation. Thanks to a pioneering 3D printing process developed by scientists at Northwester... 3D printing ceramics innovation manufacturing materials science particle physics superconductors technology
Atomic-Scale Discoveries Are Shaping the Future of Quantum Computing Quantum computing’s progress hinges on mastering the smallest details. Recent research from Brookhaven National Laboratory and Pacific Northwest National Laboratory has revealed a previously unknown i... Brookhaven Lab computational modeling interface engineering materials science nanotechnology quantum computing superconducting qubits
MIT Physicists Unveil a Superconductor That Doubles as a Magnet MIT physicists have turned a once-unthinkable scenario into reality by discovering a “chiral superconductor” that is also intrinsically magnetic. Even more remarkable, this quantum phenomenon was foun... graphene magnetism materials science MIT research quantum physics superconductivity topological materials
Scalable Chemistry Simulations: Quantum Supercomputing’s Breakthrough Moment Simulating intricate chemical reactions may not be limited by computational power any longer thanks to Quantinuum’s revolutionary, error-corrected, end-to-end computational chemistry workflow. This le... AI integration computational chemistry error correction innovation materials science quantum computing scientific research supercomputing
Open Molecules 2025: Transforming Chemistry with AI-Ready Data The scientific world is abuzz with the debut of Open Molecules 2025 (OMol25), a dataset poised to redefine what's possible in computational chemistry and artificial intelligence. Developed through a c... AI models computational chemistry datasets DFT drug discovery machine learning materials science molecular simulation
How AI is Accelerating the Race Toward Fusion Energy The Power of AI in Fusion Energy The pursuit of nuclear fusion as a source of limitless, clean energy has reached a pivotal moment. Artificial intelligence is now catalyzing breakthroughs, giving rese... AI clean energy digital twins fusion energy materials science Microsoft nuclear fusion plasma physics