1. Growth of UF5 nanoparticles formed by laser photolysis in a supersonic nozzle reactor;Takeuchi;J. Aerosol Sci.,1998
2. D.E. Rosner, A.G. Konstandopoulos, M. Tassopoulos, D.W. Mackowski, Deposition dynamics of combustion generated particles: summary of recent studies of particle transport mechanisms, capture rates and resulting deposit microstructure/properties, in: S.A. Benson (Ed.), Inorganic Transformations and Ash Deposition During Combustion, Engineering Foundation/ASME, New York, 1992, pp. 585–606.
3. P. Meakin, Simulations of aggregation processes, in: D. Anvir (Ed.), The Fractal Approach to Heterogeneous Chemistry, Wiley, New York, 1989.
4. M. Tassopoulos, Relationships between particle deposition mechanisms, deposit microstructure and effective transport properties, PhD Dissertation, Department of Chemical Engineering, Yale University, New Haven, CT, 1991.
5. P.F. Dunn (Ed.), Interactions of particles with surfaces, Aerosol Sci. Technol. Special Issue 23 (1) (1995) 1–108.