AI Article Synopsis
- The electrodeposition of nickel and other iron group metals is complicated by competing reactions, making it hard to accurately analyze using traditional methods.
- The study employs a combination of optical microscopy and ex situ SEM imaging to observe the formation of nickel nanoparticles (NPs) on indium tin oxide (ITO) at a single particle level.
- This innovative approach reveals the coexistence and competition between two types of nickel NPs—metallic nickel and nickel hydroxide—while highlighting a unique self-termination of growth that is often overlooked in bulk measurements.
Article Abstract
Electrodeposition of earth-abundant iron group metals such as nickel is difficult to characterize by simple electrochemical analyses since the reduction of their metal salts often competes with inhibiting reactions. This makes the mechanistic interpretation sometimes contradictory, preventing unambiguous predictions about the nature and structure of the electrodeposited material. Herein, the complexity of Ni nanoparticles (NPs) electrodeposition on indium tin oxide (ITO) is unraveled operando and at a single entity NP level by optical microscopy correlated to ex situ SEM imaging. Our correlative approach allows differentiating the dynamics of formation of two different NP populations, metallic Ni and Ni(OH) with a <25 nm limit of detection, their formation being ruled by the competition between Ni and water reduction. At the single NP level this results in a self-terminated growth, an information which is most often hidden in ensemble averaged measurements.
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| http://dx.doi.org/10.1002/anie.202106420 | DOI Listing |
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