A newly developed technique uses a Bessel beam to extend the focus of optical coherence microscopy, allowing for a detailed ...

Researchers at the University of Toronto's Faculty of Applied Science & Engineering have designed a new microfluidic platform ...

Thanks to the diffraction limit, scientists could use the light microscope to see cells but not the proteins inside them or a ...

To create the chip, researchers used an integrated optical phase array, which contains microscale antennae that are ...

Researchers at the University of Toronto‘s Faculty of Applied Science & Engineering have designed an innovative microfluidic ...

When it comes to electrically conductive nanomaterials, graphene—stronger and lighter than steel and more conductive than ...

Researchers at the University of Toronto's Faculty of Applied Science & Engineering have designed a new microfluidic platform ...

Researchers at Università Cattolica, Brescia campus, have discovered that the transition from insulating to conductive ...

From the realm of the abstract to the tangible, the new assistant professor at the Institute of Science and Technology ...

Recently, a research team led by Xuesong Mei and Jianlei Cui from Xi’an Jiaotong University has made significant progress in ...

Dr. Andre Koernig discusses the evolving capabilities of atomic force microscopy (AFM), highlighting its applications in ...