Electrochemical techniques are coupled with inductively coupled plasma (ICP) atomic emission spectrometry for in-line electrolyte analyses. In this way, direct measurement of the elemental dissolution rates in real-time or element-resolved electrochemistry can be carried out, complementary to conventional electrochemical measurements. This methodology can be used to obtain the element-specific reaction mechanisms under either spontaneous or polarized conditions up to part-per-billion level resolution with applications in diverse domains of corrosion science and interfacial reactivity. This review aims to summarize recent research activities using ICP coupled with other analytical techniques to answer specific questions on the mechanism of degradation of materials in aqueous or organic environments including the dissolution of metal oxides, catalysis, reaction stoichiometry, electrochemical kinetics, and photoelectrochemical reactivity.
This work was supported by Agence Nationale de Recherche (ANR) #ANR-22CE08-0015-01 (QUEENE) and #ANR-20-CE08-0031 (TAPAS 2020). The authors acknowledge financial support from Sorbonne Université and the Centre National de la Recherche Scientifique (CNRS), France.