The interactions of common environmental contaminants with C-60 have been studied to evaluate the environmental impact of carbon nanomaterials. The adsorption and desorption interaction of the hydrophobic contaminants naphthalene and 1,2-dichlorobenzene with C-60 was characterized. Processes that cause the wetting and disaggregating of C-60 particles also affect the extent of organic contaminant sorption to C-60 aggregates by orders of magnitude. C-60 dissolved in organic solvents such as toluene can form stable nanoscale aggregates upon vigorous mixing in water. These nanoscale C-60 particles form stable suspensions in water and are referred to as 'nano-C-60'. Desorption of contaminants from stable suspensions of nano-C-60 exhibits hysteresis. The experimentally observed adsorption/desorption hysteresis is described by a two-compartment desorption model: first, adsorption to the external surfaces that are in contact with water, and second, adsorption to the internal surfaces within the aggregates.

• 出版日期2005-10