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Materials and Surface Nanoscience

Online AFM/Raman of an Si/SiO2 Grid



AFM/Raman of Cardiac Stent



Topographic Images of the Fisher's Sample



Collage of Raman Intensity & AFM Topography of a Diamond Film



Raman Imaging with AFM Auto-Focus



AFM Phase Images of TMP Sample



Raman/AFM Depth Profiling of a Polymer Blend/PDMS/Chloroform



NanoIndentation and Raman Characterization



AFM with On-Line Raman of Strained Silicon



AFM/Raman Collage of Name Card



AFM/Thermal in Non-Contact Mode



Topographic Imaging of Silver Nanoparticles



AFM Raman of CNT Nanowire on Silicon



MultiProbe NanoIndentation & AFM Profiling with On-line Raman



AFM/Raman of Strained Si Transistor



Large Z-Range Imaging of Razor Blade



Off-Axis Enhancement



Quantum Dots Imaging



Quantum Dots Imaging



AFM/Raman of Si/SiO2 Grid



Diamond Film Raman with AFM On-Line Auto-Focus



Grain Boundary Imaging in HOPG



Nanoindentation



Wood Sample



Carbon Nanotubes



FIB Etched Trench



Optoelectronic Device Structure



AFM Imaging of Textile Fibers



0.5x0.5µ Carbon Nanotubes



PEO Spherulite



TFT in Liquid Crystal Display



Raman-AFM of MEMs device



Magneto Optic Disc



SEM/AFM Integration



AFM, NSOM and Capicatance



30nm Gold Balls



Internal Imaging of a Deep Trench



Alumina Template



Image of Standard Silicon AFM Tip



Deep Trench / Side-Wall Imaging



Zoom on Carbon Nanotube



Simultaneous AFM/NSOM and Capacitance



Carbon Nanotubes



Topographic Imaging of Silver Nanoparticles



Quantum Dots Imaging

HOPG

All Nanonics systems show the ultimate of AFM imaging capability with the imaging of atomic steps in highly oriented pyrolytic graphite even on a dual microscope or on a microRaman.

AFM topographic image of 2x2 micron scan area shows atomic layer of Highly Ordered Pyrolytic Graphite [HOPG]. Height line profile (right) shows the different atomic layers at the marked line (left). The marked step at the graph shows a single atomic step of 3.75 Angstrom.

WSxM software has been used for image processing of the pictures above: I. Horcas et al. Rev. Sci. Instrum. 78, 013705 (2007)

Nanonics Systems allow for ultrahigh sensitive topographic imaging with minimal Z noise and single atomic layer imaging is a standard for all our systems.

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