A physics-based model that accounts for membrane surface folds predicts cell adhesion on nanopillar arrays with 97% accuracy, ...

Solar cell panels, wind turbines, maybe even electric cars. But, what if one element, yes, ONE ELEMENT, could generate enough ...

Creating artificial systems that mimic the functioning of cells is one of the goals of what is known as synthetic biology.

Stockholm University and SciLifeLab researchers have uncovered how glucose transporters move nutrients into cells, bridging a ...

Fuel cells are considered a key technology for a climate-neutral energy supply. One particularly important type is the proton ...

Researchers have built a synthetic-cell platform that can be chemically adjusted in real time, sidestepping a long-standing ...

Learn what happens in your body when you eat foods that support cellular health, including how nutrients protect cells, reduce inflammation, and support energy.

Cells are not isolated units; they continuously exchange proteins, genetic material, and even entire organelles with their ...

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 ...

A new imaging approach is shedding light on one of cell biology’s most elusive questions: how lipids are organized and sorted within membranes.

Researchers introduces an innovative chemical strategy to create biomimetic structures with greater efficiency.

Tick-borne encephalitis virus, known as TBEV, hijacks the internal membrane machinery of host cells to build hidden factories ...