By Jorma Joutsensaari
Aerosol synthesis equipment for the construction of nanostractured fullerene debris were built. The nanostractured, ultrafine fullerene debris have been produced by way of vapor condensation and aerosol droplet drying and crystallization equipment in tubular laminar move reactors. The formation mechanisms have been studied through measuring particle-size distributions is the fuel section. High-resolution scanning and transmission electron microscopy equipment have been used to monitor particle morphology and ciystal constitution, and to check the crystallization mechanisms of the fullerene debris. The construction stipulations of fullerene debris in the course of synthesis, i.e. fuel temperature and move profiles within the reactor, have been evaluated utilizing computational fluid dynamics calculations. that allows you to research the position of fullerene vapor in the course of crystallization, fullerene particle evaporation dynamics within the laminar movement used to be modeled utilizing aerosol particle evaporation thought. moreover, a high-performance liquid chromatography process used to be applied to check even if it used to be attainable to split various fullerenes in the course of aerosol procedures.
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Additional resources for Aerosol synthesis of nanostructured, ultrafine fullerene particles
And Haddon, R. C. 1992. Crystalline fullerenes. In: Hammond, G. S. and Kuck, V. J. Fullerenes: synthesis, properties, and chemistry of large carbon clusters. Washington, American Chemical Society, p. 25–39. Fleming, R. , Kortan, A. , Thiel, F. , Haddon, R. , Kaplan, M. L. and Mujsce, A. M. 1991a. Pseudotenfold symmetry in pentane-solvated C60 and C70. Physical Review B, Vol. 44, p. 888–891. Fleming, R. , Kortan, A. , Murphy, D. , Haddon, R. , Mujsce, A. , Kortan, A. R. and Zahurak, S. M. 1991b.
14, p. 5–24. , Pietzak, B. and Smith, R. 1997. The growth mechanisms and morphology of C60 films on different substrates. Surface Science, Vol. 394, p. 201–220. 60 Rogers, R. R. and Yau, M. K. 1989. A short course in cloud physics, Third edition. Oxford, Pergamon Press. 293 p. Ruoff, R. , Tse, D. , Malhotra, R. and Lorents, D. C. 1993. Solubility of C60 in a variety organic solvents. Journal of Physical Chemistry, Vol. 97, p. 3379– 3383. Saab, A. , Srdanov, V. I. and Stucky, G. D. 1998. Oxidized thin films of C60: a new humidity-sensing material.
1960. On the growth of germanium dendrites. Acta metallurgica, Vol. 8, p. 57–60. , Richter, H. and Fonseca, A. 1996. Quantitative determination of C60 and C70 in soot extracts by high performance liquid chromatography and mass spectrometer characterization. Fullerene Science and Technology, Vol. 4, p. 1001–1017. van de Waal, B. W. 1996. Cross-twinning model of fcc crystal growth. Journal of Crystal Growth, Vol. 158, p. 153–165. , De Boer, J. , Verheijen, M. , Meekes, H. and Meijer, G. 1993. Structural phase transitions in C70.
Aerosol synthesis of nanostructured, ultrafine fullerene particles by Jorma Joutsensaari