Aa. Onischuk et al., Evidence for long-range Coulomb effects during formation of nanoparticle agglomerates from pyrolysis and combustion routes, J PHYS CH A, 104(45), 2000, pp. 10426-10434
Two processes of the agglomeration of aerosol particles are investigated. T
he first process involves silicon aerosol formation by silane pyrolysis in
a flow reactor. In the secund process, soot aerosol is formed during propan
e combustion in a Bunsen burner. The agglomerate size and morphology are an
alyzed by a transmission electron microscope. An imaging system is used to
observe agglomerate-agglomerate coagulation and agglomerate sticking to the
deposit formed on the surface (tendrils). The movement of agglomerates in
the electric field is also studied using the imaging system. It is found th
at Coulomb interactions are significant during the sticking process and, in
particular, they are responsible for the fractal dimension, inferred in th
e experiments to be significantly lower with respect to thr values obtainab
le from diffusion limited cluster-cluster aggregation simulations. However,
the mechanism of this interaction is different for silicon and soot agglom
eration processes. It is found that the silicon agglomerates are dipoles wi
th net charges equal to zero. By contrast, approximately half of the soot a
gglomerate population is estimated to be charged with a net charge equal to
one elementary unit (positive or negative). The major result is that the C
oulomb interactions are observed to hold considerable influence during the
process of agglomerate-agglomerate sticking, in particular, encouraging the
agglomerate mutual sticking at the tips of the single agglomerates.