What if a surface could instantly switch from sticky to slippery at the push of a button? By using electricity to control how ...

Water trapped inside tiny molecular cavities behaves in a surprisingly energetic way, pushing outward like people crammed in an elevator. When a new molecule enters these narrow spaces, the confined ...

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Scientists caution against attempts to narrow the PFAS chemical list by changing the definition of exactly what a "forever ...

Scientists have designed a new type of gas sensor that can tell apart "mirror image" versions of the same smell molecule, ...

We have long struggled to determine how the first living organisms on Earth came together. Now, surprising evidence hints ...

Insights into water behavior on 2D materials, such as graphene and h-BN, could completely transform surface design for ...

Scientists have designed a new type of gas sensor that can tell apart “mirror image” versions of the same smell molecule, ...

That likely works because of an ongoing battle between water and ice on the top layer of a slippery sheet. Sodium’s structure means its ions break apart in water, making it harder for H2O molecules to ...

Scientists capture the most detailed 3D images of chromatin condensates, revealing how DNA packs tightly inside cells.

Astronomers have discovered that 3I/ATLAS is carrying methanol and other chemicals that were probably important in the origin ...