期刊
PHYSICAL CHEMISTRY CHEMICAL PHYSICS
卷 24, 期 39, 页码 24419-24428出版社
ROYAL SOC CHEMISTRY
DOI: 10.1039/d2cp01888h
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资金
- National Science Center, Poland [2020/39/I/ST4/01854]
The recently introduced technique of square-wave chronoamperometry (SWCA) and its improved version, multi-amplitude square-wave chronoamperometry (MA-SWCA), allow for the fast and reliable estimation of kinetic parameters within a single experiment by progressively increasing the height of potential pulses.
The recently introduced technique of square-wave chronoamperometry (SWCA) is studied under conditions of progressively increasing height of potential pulses (square-wave amplitude) within a single experiment. In multi-amplitude square-wave chronoamperometry (MA-SWCA) a potential modulation consisting of square-wave forward and reverse potential pulses is imposed on a constant mid-potential; the amplitude of pulses increases progressively during the experiment. This allows the fast and reliable estimation of kinetic parameters at a constant pulse frequency in a single experiment, based on the resulting feature known as the amplitude-based quasireversible maximum. The proposed methodology is tested by simulating the responses of a simple quasireversible electrode reaction of a dissolved redox couple and a surface confined electrode reaction. Compared with conventional square-wave voltammetry (SWV) and SWCA, MA-SWCA shows advantages in estimation of the standard rate constant in terms of simplicity, speed and efficiency for both studied electrode mechanisms.
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