Researchers have used tip-scan high-speed atomic force microscopy combined with an optical microscope to observe light-induced deformation of azo-polymer films. The process could be followed in real ...

Expanding our understanding of a particular process, material, or mechanism usually requires taking a close look at what is going on. Researchers in Japan have now observed the nanoscale behavior of ...

A fully open-source platform provides a compact rheometer that can be easily combined with optical microscopy, allowing ...

Introduction to SNOM: The Scanning Near-field Optical Microscope (SNOM) stands as a pivotal analytical tool in nanotechnology, enabling the visualization of nanostructures with resolution beyond the ...

Microscopes have long been scientists’ eyes into the unseen, revealing everything from bustling cells to viruses and nanoscale structures. However, even the most powerful optical microscopes have been ...

Fast-scanning atomic force microscopy imaging of the molecule at two different time points shows positional shifts along the polymer chain on the left. On the right, the molecular structure of PEG ...

AFM differs significantly from traditional microscopy techniques as it does not project light or electrons on the sample's surface to create its image. Instead, AFM utilizes a sharp probe while ...

The mIRage-LS optical photothermal infrared (O-PTIR) microscope has a spectral range of 3600-2700 and 1800-800 cm-1 for infrared (IR) spectroscopy and a spectral range of 3900 – 200 cm-1 for Raman ...

The Engineered Materials research cluster at Miami University’s College of Engineering and Computing (CEC) develops and tests materials to address challenges in sustainability, energy, healthcare, and ...

Researchers from Osaka University combine high-speed atomic force microscopy with a laser light source for real-time observation of azo-polymer films Osaka, Japan – Expanding our scientific ...