Carbon nanotube atomic force microscopy probes represent a significant advancement in nanoscale imaging and surface characterisation. Owing to the exceptional mechanical strength, high aspect ratio ...

Photothermal AFM-IR technology provides spatially resolved infrared spectroscopy for detailed compositional mapping of ...

Electrochemical atomic force microscopy (EC-AFM) is a powerful analytical technique that combines the high-resolution imaging capabilities of atomic force microscopy (AFM) with electrochemical ...

In this interview, Professor Emeritus Mervyn Miles at the University of Bristol speaks about the history and technology behind Atomic Force Microscopy (AFM) and Scanning Probe Microscopy (SPM). Can ...

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The deep learning algorithm developed by researchers at the University of Illinois Urbana-Champaign is trained to remove the effects of the probe’s width from AFM microscope images. As reported in the ...

Atomic force microscopy (BioAFM) drives innovation in cosmetics and healthcare, ensuring product efficacy through precise ...

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Atomic force microscopy (AFM) is a cornerstone technique for nanoscale manipulation, and has applications in nanoparticle assembly, biomolecule handling, semiconductor device manufacturing, etc.

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, ...

(a) A scanning electron microscope (SEM) image of the nanoneedle probe used for the measurements. (b) Elasticity map of a 1 µm × 1 µm area on the nuclear surface, showing the change in elasticity ...