Inside every living cell, tiny molecular machines are constantly in motion, shifting shapes, tugging on membranes and shuttling ions from one side to the other. That restless activity does more than ...

Tellurium nanowire transistors switch between boosting and suppressing their light response through voltage alone, enabling ...

The first clear crackle of Martian lightning has finally reached human ears, captured by a microphone bolted to a rover nearly 250 million kilometers away. In a few seconds of audio, the Perseverance ...

The exploration of quantum information challenges objective reality, positing the universe as a hologram is explored through ...

Researchers found a way to harness the fundamental properties of triboelectrification, which most people think of it as ...

Dust devils on Mars form when air near the warm surface heats up and rises through cooler surrounding air, causing nearby air ...

Cells may generate their own electrical signals through microscopic membrane motions. Researchers show that active molecular ...

Researchers have developed a method that can predict the electricity consumption of AI image generators. This is said to work even with proprietary systems. An international team of researchers from ...

A new class of ceramics are not only transparent, but they can control light with exceptional efficiency — better than any ...

A new study links Ramanujan’s pi formulae with modern physics. (Image: Canva) A new study links Ramanujan’s pi formulae with modern physics. IISc researchers uncovered deep ties between century-old ...

The convergence of nuclear technology and artificial intelligence is no longer a far-off possibility, but rather an ...