Surface characterization and functionalization of carbon nanofibers

Klein, K.L. (Center for Nanophase Mater. Sci., Oak Ridge Nat. Lab., Oak Ridge, TN, USA); Melechko, A.V.; McKnight, T.E.; Retterer, S.T.; Rack, P.D.; Fowlkes, J.D.; Joy, D.C.; Simpson, M.L.

Source: Journal of Applied Physics, v 103, n 6, 15 March 2008, 061301-1-26

Publisher: AIP, USA

Abstract: Carbon nanofibers are high-aspect ratio graphitic materials that have been investigated for numerous applications due to their unique physical properties such as high strength, low density, metallic conductivity, tunable morphology, chemical and environmental stabilities, as well as compatibility with organochemical modification. Surface studies are extremely important for nanomaterials because not only is the surface structurally and chemically quite different from the bulk, but its properties tend to dominate at the nanoscale due to the drastically increased surface-to-volume ratio. This review surveys recent developments in surface analysis techniques used to characterize the surface structure and chemistry of carbon nanofibers and related carbon materials. These techniques include scanning probe microscopy, infrared and electron spectroscopies, electron microscopy, ion spectrometry, temperature-programed desorption, and atom probe analysis. In addition, this article evaluates the methods used to modify the surface of carbon nanofibers in order to enhance their functionality to perform across an exceedingly diverse application space. (123 refs.)

 terms:  carbon fibres  -  electron microscopy  -  electron spectra  -  infrared spectra  -  nanostructured materials  -  reviews  -  scanning probe microscopy  -  surface chemistry  -  surface structure  -  thermally stimulated desorption