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Atomic force microscopy in 3D
M.S. Alam et al, Small Methods 2024, 2400287
Atomic force microscopy (AFM) was initially developed to visualize surfaces at nanoscale resolution. Researchers at WPI NanoLSI, Kanazawa University, have now extended AFM for 3D imaging, particularly for flexible nanostructures like carbon nanotubes. They demonstrated that dynamic mode AFM, which uses a vibrating tip, causes less friction and damage than static mode, making it ideal for imaging delicate biological systems like cells, organelles, and vesicles.
NanoLSI Podcast website
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By Adarsh SandhuM.S. Alam et al, Small Methods 2024, 2400287
Atomic force microscopy (AFM) was initially developed to visualize surfaces at nanoscale resolution. Researchers at WPI NanoLSI, Kanazawa University, have now extended AFM for 3D imaging, particularly for flexible nanostructures like carbon nanotubes. They demonstrated that dynamic mode AFM, which uses a vibrating tip, causes less friction and damage than static mode, making it ideal for imaging delicate biological systems like cells, organelles, and vesicles.
NanoLSI Podcast website