13 research outputs found
Synthesis of Silver Colloids: Experiment and Computational Model
We summarize our recent results that model the formation of uniform spherical
silver colloids prepared by mixing iso-ascorbic acid and silver-amine complex
solutions in the absence of dispersants. We found that the experimental results
can be modeled effectively by the two-stage formation mechanism used previously
to model the preparation of colloidal gold spheres. The equilibrium
concentration of silver atoms and the surface tension of silver precursor
nanocrystals are both treated as free parameters, and the experimental reaction
time scale is fit by a narrow region of this two-parameter space. The kinetic
parameter required to match the final particle size is found to be very close
to that used previously in modeling the formation of uniform gold particles,
suggesting that similar kinetics governs the aggregation process. The model
also reproduces semi quantitatively the effects of temperature and solvent
viscosity on particle synthesis.Comment: 6 pages, 5 figure
Mechanism of Formation of Monodispersed Colloids by Aggregation of Nanosize Precursors
It has been experimentally established in numerous cases that precipitation
of monodispersed colloids from homogeneous solutions is a complex process.
Specifically, it was found that in many systems nuclei, produced rapidly in a
supersaturated solution, grow to nanosize primary particles (singlets), which
then coagulate to form much larger final colloids in a process dominated by
irreversible capture of these singlets. This paper describes a kinetic model
that explains the formation of dispersions of narrow size distribution in such
systems. Numerical simulations of the kinetic equations, with experimental
model parameter values, are reported. The model was tested for a system
involving formation of uniform spherical gold particles by reduction of auric
chloride in aqueous solutions. The calculated average size, the width of the
particle size distribution, and the time scale of the process, agreed
reasonably well with the experimental values.Comment: 38 pages in plain TeX and 7 JPG figure