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

‘Tiny biological batteries’ can change the cell membrane’s electrical properties – a discovery that has big implications for health, as many essential cellular processes hinge upon precise electrical ...

Water deficit during flowering can severely disrupt petal expansion, water uptake, and reproductive success, yet many plants ...

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

Membranes are constantly bending as a result of heat fluctuating randomly through the cell. In theory, any voltage produced this way ought to cancel out in environments under equilibrium, making them ...

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

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

Learn how pH-sensitive dye detection supports reliable ADC internalization assays and insight into cellular uptake mechanisms ...

Inside every living cell, proteins and membranes are in constant motion, reshaping, colliding, and flexing as they keep an ...

In a study published in Proceedings of the National Academy of Sciences, University of Michigan researchers uncovered 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 ...