Our cells may literally ripple with electricity, acting as a hidden power supply that could help transport materials or even ...

Cells do more than carry out chemical reactions. New theoretical work suggests they may also generate usable electrical ...

The constant, energy-driven motion inside living cells may generate electricity in a way no one fully recognized before.

Chlorine is a fundamental input to modern industry, yet most of today's supply still relies on energy-intensive electrolysis.

Scientists suggest increasing what is understood about exocytosis could one day inform many fields of applied science.

Biologists have long treated the cell as a chemical factory, but a new wave of research is forcing a rethink of that familiar ...

Biologists have long treated cell membranes as passive barriers, thin skins that separate the chemistry of life from the ...

Chlorine is a fundamental input to modern industry, yet most of today's supply still relies on energy-intensive electrolysis. In order to reduce ...

On the ISS, viruses can still infect bacteria, but the process slows and pushes both organisms to evolve along different ...

New evidence of electrical power generation on cell membranes could offer insights into how living cells interact with their ...

The National Testing Agency (NTA) has issued the subject wise NEET 2026 syllabus on this website soon after the NMC released ...

Rechargeable batteries are at the forefront of the industry due to the rapid transition toward mobile and sustainable energy sources. The quality of lithium rechargeable batteries is a key factor in ...