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Electrochemical Heterogeneity at the Nanoscale: Diffusion to Partially Active Nanocubes.

Rachel WongChristopher Batchelor-McAuleyMinjun YangRichard G Compton
Published in: The journal of physical chemistry letters (2022)
How does heterogeneity in activity affect the response of nanoparticles? This problem is key to studying the structure-activity relationship of new electrocatalytic materials. However, addressing this problem theoretically and to a high degree of accuracy requires the use of three-dimensional electrochemical simulations that have, until recently, been challenging to undertake. To start to probe this question, we investigate how the diffusion-limited flux to a cube changes as a function of the number of active faces. Importantly, it is clearly demonstrated how the flux is not linearly proportional to the active surface area of the material due to the faces of the cube not having diffusional independence, meaning that the flux to each face reflects the activity or not of nearby faces. These results have clear and important implications for experimental work that uses a correlation-based approach to evidence changes in activity at the nanoscale.
Keyphrases
  • gold nanoparticles
  • single cell
  • structure activity relationship
  • ionic liquid
  • molecular dynamics
  • molecularly imprinted
  • single molecule