-
It depends what kind of nanotubes do you have (how were prepared), but try to put your CNTs to the ethanol or isopropanol. Mix the solution using ultrasonic processor (or ultrasonic bath, for something like one hour). Afterwards deposit the mixture on your substrate, the best using spincoater and let it dry.
-
I managed to get relatively nice looking samples on silicon for AFM imaging, and although I was working with single-walled nanotubes I think this approach will work fine for your multi-walled tubes as well. Place a single grain of the nanotube soot in a vial containing 10mldichloroethane and sonicated for 30min, during which time the pellet should completely
-
I want to image multiwall-nanotubes with AFM and SEM. Could anybody provide me with some tips or references on how to prepare good Nanotube-samples for imaging with an AFM? I have MWCNTs as a dry poder and want to disperse them onto a conductive sample (preferably silicon) so that they can be imaged by AFM and SEM. What sovents, additives or emulsifying
-
Multi-Modal Imaging and Measurements Correlating Optical and Atomic Force Microscopy
-
The VITA module enables nanoscale thermal analysis (nTA), a novel technique that allows the determination of the local transition temperature on the surface of a material with nanoscale spatial resolution.
-
HarmoniX Nanoscale Material Property Mapping mode with fluorescence microscopy is used to probe the surface characteristics of tissues isolated from the wheat grain. The resulting data provides new insights into this essential ingredient in human nutrition.
-
The new MIRO 2.0 (Microscope Image Registration and Overlay) software completes the compromise-free integration of optical and atomic force microscopy (AFM) by providing the tools necessary to control the combined optical/AFM Bioscope™ Catalyst TM system and analyze the resulting data. MIRO 2.0 allows AFM and optical data to be overlaid on the