The study, published in Science Bulletin, demonstrates that these micropillar-patterned electrodes, featuring only 1.5 micrometers tall cylindrical ...

A moving cell looks simple from a distance. One edge pushes forward, the rest follows, and the whole thing creeps along as if ...

Scientists at Oregon Health & Science University have uncovered a previously unknown system of internal "trade winds" that ...

Cells aren’t as passive as scientists once thought—they actively create internal currents to move proteins quickly and ...

How can fuel cells be made more efficient and longer-lasting – and what role does a membrane just a few micrometers thick play? This question is addressed by a recent study* conducted by the ...

Scientists at Oregon Health & Science University have uncovered a previously unknown system of internal “trade winds” that ...

Scientists at Oregon Health and Science University have discovered that cells generate steady internal fluid currents, dubbed ...

X-Cell generalizes to new biological contexts and breaks barriers as the first scaling law demonstrator in the virtual cell domain.

Breakthrough research reveals that cells use directed fluid flows to push key proteins forward, offering new insights into cancer, immunity, wound ...

Scientists at Oregon Health & Science University have uncovered a previously unknown system of internal "trade winds" that help cells rapidly move essential proteins to the front of the cell, ...

Researchers have identified a physical process called “mitochondrial pearling” that explains how cells keep their ...

Amino resin-derived carbon fiber paper shows enhanced strength and conductivity at lower temperatures, offering a ...