Learn how modified fluorescent proteins are evolving into quantum sensors, enhancing our understanding of cellular processes.

A team from the Institute of Materials Science of Seville (ICMS), a joint center of the Spanish National Research Council (CSIC) and the University of Seville (US), has developed a new hybrid device ...

You know how it is to spend time staring out at the sea or up at the blue sky and wonder why we can not simply pass through ...

The Colorado Springs Flea Market stands as a monument to the joy of discovery, drawing deal-seekers from Fort Collins to ...

A new bioengineered neuronal circuit board "BioConNet" allows scientists to artificially engineer human brain-like wiring at scale and can be used to engineer any possible circuit. The fully ...

Scientists have uncovered a surprising new way that giant embryonic cells divide—without relying on the classic “purse-string” ring long thought essential for splitting a cell in two. Studying ...

An international study has revealed a surprising connection between quantum physics and the theoretical models underlying ...

Growing tissues can crack, break, and dissociate to form structures that can later withstand immense forces.

When we learn a new motor skill—whether mastering a piano passage or refining balance while walking—the brain must reorganize ...

Neuron-powered computer chips can now be easily programmed to play a first-person shooter game, bringing biological computers a step closer to useful applications ...

A research team affiliated with UNIST has announced the successful development of a novel semiconductor circuit capable of ...

In neocortical circuits, repetitively active neurons evoke unitary postsynaptic potentials (PSPs) whose peak amplitudes either increase (facilitate) or decrease (depress) progressively. To examine the ...