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31 This paper has also provided the analysis required for a potential optimized cavitation model which would assist in gathering further information relating to the impact of cavitation on graphene exfoliation by evaluating the effects of temperature and flowrate on cavitation. 2.6 Experimental Raman spectroscopy A thin film of the graphene sample was prepared to determine the Raman spectra. An approximately 10 mm-diameter drop of graphene sample was dropped on top of a Si/SiO2 substrate and was air-dried. The spectra were collected from 600-3300 cm-1. Transmission Electron Microscopy (TEM) The TEM images were taken using a JEOL 2100 Scanning and Electron Microscope. The samples were placed on a silicon wafer by pipetting 2 μL of the aqueous FLG dispersions prior to it being placed within the microscope. Acknowledgement This work was partially supported by the Office of Naval Research Grant N000141712620. The authors would like to thank Nicholas Hunter for his contribution to materials characterization.PDF Image | Hydrodynamic cavitation exfoliation layered graphene nano
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