Abstract
Vibrational spectroscopy has been successfully used for decades in studies of the atmospheric corrosion processes, mainly to identify the nature of corrosion products but also to quantify their amounts. In this review article, a summary of the main achievements is presented with focus on how the techniques infrared spectroscopy, Raman spectroscopy, and vibrational sum frequency spectroscopy can be used in the field. Several different studies have been discussed where these instruments have been used to assess both the nature of corrosion products as well as the properties of corrosion inhibitors. Some of these techniques offer the valuable possibility to perform in-situ measurements in real time on ongoing corrosion processes, which allows the kinetics of formation of corrosion products to be studied, and also minimizes the risk of changing the surface properties which may occur during ex-situ experiments. Since corrosion processes often occur heterogeneously over a surface, it is of great importance to obtain a deeper knowledge about atmospheric corrosion phenomena on the nano scale, and this review also discusses novel vibrational microscopy techniques allowing spectra to be acquired with a spatial resolution of 20 nm.
Highlights
The main aim of this review article is to illustrate how different vibrational spectroscopy techniques are used in the field of atmospheric corrosion
Person et al, used ex-situ infrared reflection/absorption spectroscopy (IRRAS) complemented by Raman spectroscopy, cathodic reduction, and X-ray photoelectron spectroscopy (XPS) to examine the atmospheric corrosion of copper exposed to 75% relative humidity (RH) and 0.25 ppm SO2 (g) and NO2 (g) [27]
We have summarized the main part of the work done during the last decades where vibrational spectroscopy has been employed to investigate atmospheric corrosion phenomena
Summary
The main aim of this review article is to illustrate how different vibrational spectroscopy techniques are used in the field of atmospheric corrosion. A significant number of the studies discussed here are model studies of metal surfaces exposed to one or a few corrosive gases, in significantly less complex atmospheres than in natural environments. Several of the studies discussed below focus on investigating indoor atmospheric corrosion processes, which significantly differ from corrosion occurring outdoors due to the different nature of the corrosive species present among other parameters. Materials 2017, 10, 413 nano FTIR (Fourier transform infrared spectroscopy) microscopy These two abilities, are crucial parameters in revealing the mechanisms of atmospheric corrosion processes. Here the results obtained by these other techniques have not been discussed in detail, the complementary techniques employed have been mentioned to demonstrate the added value of combining various analytical techniques
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