We study the depth sensitivity and spatial resolution of subsurface imaging of polymer nanocomposites using second harmonic mapping in Kelvin Probe Force Microscopy (KPFM). This method allows the visualization of the clustering and,percolation of buried Single Walled Carbon Nanotubes (SWCNTs) via capacitance gradient (0c704 maps. We develop a multilayered sample where thin layers of neat Polyimide (PI) (similar to 80 nm per layer) are sequentially spin-coated on well-dispersed SWCNT/Polyimide (PI) nanoconnposite films. The multilayer nanocomposite system allows the acquisition of partial derivative C/partial derivative z images of three-dimensional percolating.networks of SWCNTs at different depths in the same region of the sample. We detect CNTs at a depth of similar to 430,nm, and notice that the spatial resolution progressively deteriorates with increasing depth of the buried CNTs. Computational trends of partial derivative C/partial derivative z vs CNT depth correlatethe sensitivity and depth resolution with field penetration and spreading, and enable.a possible approach to three-dimensional subsurface structure reconstruction. The results open the door to nondestructive, three-dimensional tomography and nanometrology techniques for nanocomposite applications.

• 出版日期2015-3