Many biological processes are regulated by electricity—from nerve impulses to heartbeats to the movement of molecules in and ...

Stripe patterns are commonly seen in nature—for instance, birds and fish move in coordinated flocks and schools, fingerprints ...

Scientists at Duke-NUS Medical School have developed two powerful computational tools that could transform how researchers ...

Creating mini mitochondria factories helped recharge damaged cells in a dish, providing proof-of-concept work that could pave ...

WIRED spoke with DeepMind’s Pushmeet Kohli about the recent past—and promising future—of the Nobel Prize-winning research ...

Deep in coastal mangroves and even inside our own mouths, biologists are finding that DNA does not always sit in a simple ...

Discover how work cells streamline manufacturing by enhancing efficiency, reducing costs, and minimizing waste, with real-world examples of successful implementation.

The introduction of a nanometric germanium oxide layer drastically improved device performance and stability. As the global demand for clean energy accelerates, solar power continues to attract ...

The efficieny result represents one of the best performances ever achieved for this kind of thin-film solar cell to date. The device was fabricated with a rear contact interface that reportedly ...

Generative AIs may not be as creative as we assume. Publishing in the journal Patterns, researchers show that when ...

Learn more about eLife assessments Blood flow to the brain is a sensitive marker of neuronal activity as well as of a number of diseases, including stroke, tumours and neurodegenerative conditions.

Generative AIs may not be as creative as we assume. Publishing December 19 in the Cell Press journal Patterns, researchers show that when ...