Wearable health devices, such as smartwatches, have become commonplace, enabling the continuous monitoring of physiological ...

Cell number and viability matter from biological research to bioprocessing. So, scientists keep working on better ways to monitor these features of cell cultures. One promising approach comes from ...

Biological sensors are crucial to survival. Like eyes and ears, they help us process the world and protect us from danger. On a smaller scale, biological sensors such as nerves send signals to the ...

The next time you reach for a memory or make a quick choice, a storm of tiny signals races through your brain. Scientists can ...

RNA is a central and universal mediator of genetic information underlying the diversity of cell types and states. The lack of tools for studying and controlling various cell types using RNAs continues ...

In a quiet lab at Utrecht University, researchers have built a tool that lets you watch one of life’s most serious crises unfold in real time. Inside every cell, DNA breaks, repairs, and sometimes ...

Researchers have developed a fluorescent sensor that may be useful for understanding how cells recognize themselves versus other cells when making connections in the brain. Specifically, their sensor ...

Hamilton's in-line cell density sensors have found application in various customer scenarios, spanning from feed control to continuous processing. This eBook offers a concise compilation of pertinent ...

The function of mast cells, which are part of the immune system, is still a mystery. Scientists at the German Cancer Research Center (DKFZ) have now shown in mice: mast cells function as a sensor that ...

Customers kept telling the engineers at Banner Engineering that they needed to sense objects at greater distances than the inches to feet possible with existing photoelectric and laser sensors; for ...