Researchers in Purdue University’s College of Engineering have developed a patent-pending optical counterfeit ... using dark-field microscopy. This is a readily available technique that can integrate ...

Unlike traditional optical microscopy, SNOM bypasses the diffraction limit by ... with applications in photovoltaics, semiconductor research, biological imaging, and beyond. Its ability to map optical ...

Many scientific fields can benefit from optical microscopy with spatial resolution beyond the diffraction limit, including semiconductor research, life science, materials science, pharmaceutics and ...

Discover the possibilities of twisted bilayer graphene as a replacement for silicon in integrated circuits and it's potential.

Optical microscopes depend on light, of course, but they are also limited by that same light. Typically, anything under 200 nanometers just blurs together because of the wavelength of the light ...

This diffraction-limited phenomenon hindered the performance of optical microscopy for over a century ... but also promise nano-imaging of semiconductor devices in the electronics industry.

More information: Basamat S. Shaheen et al, Imaging hot photocarrier transfer across a semiconductor heterojunction with ...

Report on how AI is driving market transformation - The global nano positioning systems market size is estimated to grow by ...

The alpha300 Semiconductor Edition is a sophisticated confocal Raman microscope designed for the chemical analysis of semiconducting materials. This advanced tool helps researchers quickly analyze ...