The developed high-speed three-dimensional scanning force microscopy enabled the measurement of 3D force distribution at solid-liquid interfaces at 1.6 s/3D image. With this technique, 3D hydration ...

Researchers have developed a deep learning algorithm for removing systematic effects from atomic force microscopy images, enabling more precise profiles of material surfaces. Atomic force microscopy, ...

Atomic force microscopy (AFM) has emerged as a pivotal technique in biological research, offering unparalleled spatial resolution and force sensitivity to visualise and quantify the nanoscale ...

Atoms measure roughly 0.1 nanometers across, a scale so small that scientists spent more than six decades developing instruments capable of resolving them with any clarity. The journey from the first ...

A new AI model generates realistic synthetic microscope images of atoms, providing scientists with reliable training data to accelerate materials research and atomic scale analysis. (Nanowerk ...

A research team from The Hong Kong University of Science and Technology (HKUST) has developed GrainBot, an AI-enabled toolkit that automatically extracts and quantifies multiple microstructural ...

Atomic force microscopy (AFM) is a high-resolution imaging technique that generates 3D images of sample surfaces and characterizes their nanomechanical properties. AFM can be used for several ...

Not all defects are visible with the same microscope. Explore how resolution, contrast, and signal interpretation shape ...

An AI-powered toolkit automatically extracts and quantifies microstructural features from microscopy images, accelerating ...

Atomic force microscopy, or AFM, is a widely used technique that can quantitatively map material surfaces in three dimensions, but its accuracy is limited by the size of the microscope’s probe. A new ...