An artificial intelligence model predicts how brain immune cells react to RNA and DNA nanoparticles, helping scientists design safer and more effective nucleic acid therapies faster.

A promising strategy for making such flexible conductors is to use a self-healing polymer as a flexible base and incorporate ...

A sunlight-powered reactor turns ordinary sewage into hydrogen fuel while cleaning the water, showing how simple materials ...

A new roadmap links materials, design, and process to build stretchable synaptic transistors for soft, low-power AI and ...

Physicists found bizarre metal-like behavior in an insulator at extreme magnetic fields, revealing quantum oscillations deep ...

Autonomous micro- and nanomotors improve image clarity, targeting, and multimodal performance across advanced biomedical ...

Researchers uncovered a crucial mechanism that reveals how electrons and atoms interact to create a new quasiparticle and ...

Targeted particles carrying the cytokine IL-12 can jump-start T cells, allowing them to clear tumors while avoiding side ...

Scientists developed the smallest, densest carbon nanowires ever made, opening the door to explore the remarkable strength ...

A new electrochemical system runs two reactions in one cell, converting plant compounds into valuable products with less ...

A new down-top method makes fluorographene nanofiber papers that combine strength, heat conductivity, and wave transparency ...

Researchers developed a contact-free system that senses magnetic signals from digital pills, offering a skin-friendly way to ...