Novel physicochemical approach to optical biosensing that leverages the unique properties of 1DZnO nanostructures. These ...

"While conventional fluorescence microscopy has been useful for studying cellular structures, it has been limited by the ...

A physics professor, Zeng’s nanomaterials work has applications in quantum information, renewable energy, biomedicine and more.

The surfaces that cells come into contact with can influence how the cells grow, function, and communicate—shaping metabolism ...

Researchers have developed the smallest walking robots, measuring just 2 to 5 microns, capable of interacting with visible ...

A global consortium of leading research institutions, which includes the University of California San Diego’s School of ...

Perovskites are materials with advantageous optoelectronic properties that could be used to develop more affordable ...

One of the most promising applications of this technology is its ability to create nanorobots capable of delivering drugs.

Researchers at the University of Virginia have made a breakthrough that could have far-reaching effects. According to an ...

Wittenberg (MLU) and the Max Planck Institute of Microstructure Physics in Halle have developed a novel method that allows ...

Scientists at the University of Sydney Nano Institute have made an exciting breakthrough in nanotechnology by using DNA—the ...

By leveraging DNA origami, researchers can engineer these nanobots to respond to specific biological cues, guaranteeing that ...