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Electrochemistry Beyond Solutions: Modeling Particle Self-Crowding of Nanoparticle Suspensions. | LitMetric

Electrochemistry Beyond Solutions: Modeling Particle Self-Crowding of Nanoparticle Suspensions.

J Am Chem Soc

Institute of Energy: Sustainability, Environment, and Equity, Stony Brook University, Stony Brook, New York 11794, United States.

Published: September 2024

AI Article Synopsis

  • Nanoparticle suspensions are set to enhance the performance of future electrochemical systems, such as batteries and sensors, by challenging current electrochemical theories.
  • This study investigates how these suspensions behave under varying concentrations using a rotating disk electrode, revealing that charge transfer deviates from traditional theories due to "self-crowding" of reacted particles.
  • An analytical model was developed to explain the observed behaviors, showing its relevance for designing better electrochemical systems with nondissolvable nanoparticles across different electrode sizes.

Article Abstract

Nanoparticle suspensions hold promise to transform functionality of next-generation electrochemical systems including batteries, capacitors, wastewater treatment, and sensors, challenging the limits of existing electrochemical models. Classical solution-based electrochemistry assumes that charge is transported and transferred by point-like carriers. Herein, we examine the electrochemistry of a model aqueous suspension of nondissolvable electroactive nanoparticles over a wide concentration range using a rotating disk electrode. Past a concentration and rotation rate threshold, the electrochemistry deviates from solution theory with a maximum attainable current due to particle "self-crowding" where reacted particles on the electrode surface reduce the area accessible for charge transfer by unreacted particles. The observed response is rationalized with an analytical model considering the physical adsorption/desorption kinetics and interfacial transport of nondissolvable finite-size charge carriers. Experimental validation shows the model to be applicable across a range of electrode sizes and thus suitable for engineering electrochemical systems employing nondissolvable nanoparticle suspensions.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11440487PMC
http://dx.doi.org/10.1021/jacs.4c09149DOI Listing

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