Journal
LANGMUIR
Volume 38, Issue 10, Pages 3040-3050Publisher
AMER CHEMICAL SOC
DOI: 10.1021/acs.langmuir.1c01938
Keywords
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Funding
- STW [016.160.312]
- Dutch Research Council (NWO)
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The study experimentally demonstrates that a surface-driven flow is generated during the electrocatalytic reaction and can be visualized and quantified using tracer particles. The research also reveals that the particle accumulation dynamics is controlled by a positive dielectrophoretic force.
A surface-driven flow is generated during the electrocatalytic reaction of a platinum-gold bielectrode within hydrogen peroxide. This flow can be experimentally visualized and quantified using micrometer-sized particles that are transported by a flow field. Tracer particles, which possess an inherent surface charge, also interact with the induced electric field and exhibit a collective behavior at the surface of the electrodes where they accumulate. The underlying mechanism for the accumulation dynamics demonstrated by these catalytic pump systems has so far been lacking. In this work, the accumulation dynamics and kinetics were experimentally investigated. With use of numerical simulations, we demonstrate that the self-driven particle accumulation is controlled by a positive dielectrophoretic force, mediated by the reaction-induced electric and flow field. These results contribute to the fundamental knowledge on immobilized bimetallic systems.
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