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- Title
Nucleation-growth kinetics of the oxidation of silver nanocrystals to silver halide crystals.
- Authors
Ulrich Hasse; Stephen Fletcher; Fritz Scholz
- Abstract
<span class="AbstractHeading">Abstract </span>The electrochemical oxidation of silver nanocrystals to silver halide crystals proceeds by a process of nucleation and growth. The mechanism is confirmed by analyzing chronopotentiograms using a new extension of nucleation theory. The theory makes it possible to derive plots of nucleation-growth currents vs potential, and growth rates vs potential, directly from experimental data. Such plots yield powerful insights into the reaction kinetics. In situ AFM imaging reveals that a few thousand of silver nanocrystals are oxidized to only a few tens of silver halide crystals, without pronounced loss of active material. The mechanism of this remarkable process is described in this paper. In particular, it is shown that the decrease in crystal population proceeds via an oversaturated silver solution, i.e., a process that is mediated by “driven” Ostwald ripening across the electrode surface. At the same time, the low solubility of silver species in bulk solution means that few silver ions escape from the surface. This combination of features explains why the transformation from silver to silver halide is near-stoichiometric yet highly reconstructive.
- Publication
Journal of Solid State Electrochemistry, 2006, Vol 10, Issue 10, p833
- ISSN
1432-8488
- Publication type
Article
- DOI
10.1007/s10008-006-0170-7