In one new design, the nanoparticle changes the color of its luminescence depending on the applied force. In another design, they made nanoparticles that do not demonstrate photon avalanching ...

Nanoscale sensors measure forces with 100x improved sensitivity Dynamic range spans four orders of magnitude a record for optical sensors Biocompatible sensors enable deep, remote monitoring in ...

Chemistry researchers have taken a key step toward next-generation optical computing and memory with the discovery of luminescent ... known as avalanching nanoparticles. Nanomaterials are tiny ...

Nanomaterials are tiny bits of matter measuring between one-billionth and one-hundred-billionths of a meter, and avalanching nanoparticles ... “Normally, luminescent materials give off light ...

The collaborative effort of the researchers led to the design of new types of nanoparticles whose luminescence color depended on applied force. In another design, the team made nanoparticles that ...

A team of materials scientists, physicists, mechanical engineers, and molecular physiologists at Stanford University have developed a nanoparticle ... that light from luminescent molecules can ...

Recognizing that ANPs are extremely force-sensitive, the team then created new nanoparticles that responded differently to forces. One causes the nanoparticle’s luminescence color to change with force ...

In one new design, the nanoparticle changes the color of its luminescence depending on the applied force. In another design, they made nanoparticles that do not demonstrate photon avalanching ...

In one new design, the nanoparticle changes the color of its luminescence depending on the applied force. In another design, they made nanoparticles that do not demonstrate photon avalanching ...

Nanobubbles allow for more oxygen to be available in the water, creating a better environment for crops to thrive. Credit: Dr. Hamidreza Samouei New research delves into the stability of nanobubbles ...