A physics-based model that accounts for membrane surface folds predicts cell adhesion on nanopillar arrays with 97% accuracy, enabling optimized biosensor design. (Nanowerk Spotlight) Under a ...

Cells are squishy and soft. Tiny nanometer-sized particles such as quantum sensors cannot move freely inside them due to viscous drag, which makes sensing challenging. Researchers at the Indian ...

A team led by La Trobe University has drawn inspiration from nature to develop a breakthrough sensor that can rapidly track tiny molecular changes in blood, paving the way to real-time, personalised ...

TABOR CITY, N.C. (WECT) - Leaders with Columbus County Schools are seeing significant improvements after implementing cellphone restrictions and vape sensors. The district began requiring high school ...

Add Yahoo as a preferred source to see more of our stories on Google. Scientists have created a powerful glutamate sensor, iGluSnFR4, that can capture the faint incoming messages between neurons, ...

The technology, called the Viral-Engineered RNA-based Activation System (VERAS), hijacks the virus's own replication machinery to switch on reporter or therapeutic genes precisely in infected cells.

A special sensor can accommodate various device sizes while recording accurate notes regarding substance levels such as blood, insulin, and IV fluids. A non-contact level sensor does not come into ...

Fluorescent proteins can be turned into qubits within cells and could give us a deeper understanding of biology at the nanoscale level. When you purchase through links on our site, we may earn an ...

Current cell therapies like CAR-T cells lack the precision to distinguish between healthy and diseased tissue, leading to limited effectiveness and potential side effects. One of the most significant ...