Atomic force microscopy (AFM) has established itself as a decisive tool for probing nanoscale interactions, particularly adhesion forces and capillary phenomena. A precise understanding of these ...

PULLMAN, Wash. - Future astronauts may boldly go farther than ever before, thanks to research at Washington State University recently funded by NASA to study fluids in space. Liquids are used in many ...

Scaling down single-cell reactions to the nanoliter level is critical to minimize the risk of contamination, increase reaction efficiency, and reduce costs. Researchers from the Single-cell Center of ...

AZoNano speaks with Professor Hyoungsoo Kim from Korea Advanced Institute of Science and Technology about his efforts to create a novel nanoscale self-assembling salt-crystal origami method called ...

Materials with both a high density and a large surface area are required in many applications, typically for energy storage under a limited space. However, they are hard to obtain by using ...

Within the Nature Portfolio, seminal contributions have established the foundational role of capillary suspensions in the formulation of conductive pastes and the modulation of flow behaviour in ...

Scaling down single-cell reactions to the nanoliter level is critical to minimize the risk of contamination, increase reaction efficiency, and reduce costs. Researchers from the Single-cell Center of ...

On Earth, fluid management systems rely on gravity. In your car, for instance, a pipe runs from the bottom of the fuel tank to the engine. Gravity positions the fuel at the bottom of the tank, and the ...

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