Magnus Coldwell reads every methods section so you don't have to — then explains, carefully, why you should have.
Mapping the surface of BRAF-mutated colorectal tumors reveals vulnerabilities for new drug development.
Longer amyloid protein strands, not just smaller clumps, may be key to Alzheimer's brain connection damage.
Our genes dictate which brain regions succumb to degeneration, revealing a critical genetic basis for disease vulnerability.
AI's safety shields can be easily bypassed by subtle changes in how prompts are phrased or the length of responses.
Gliomas fundamentally alter brain language networks, forcing a remarkable reorganization that scientists are now learning to map.
A novel metal sulfonitride film conducts electricity while also bending visible light with a remarkably high refractive index.
This new metal sulfonitride film blends transparency with electrical conductivity, a rare combination for advanced electronics.
Leaner AI models efficiently sort scientific literature, proving smaller can be smarter and more sustainable.
AI models learn fundamental physics from data, not explicit training, bypassing lengthy simulation development.
Cancer's chromosomal chaos actively shields it from immunotherapy, a vulnerability now being unveiled.
AI can now quantify individual weather data's precise forecast contribution, unlocking fair compensation for citizen scientists.
New math makes quantum key distribution robust, even with imperfect real-world hardware.