An integrated in situ ATR-FTIR and EIS set-up to study buried metal–polymer interfaces exposed to an electrolyte solution

Abstract

In situ studies of buried aluminium/polymer interfaces were performed by combining Attenuated Total Reflectance Fourier Transform Infrared Spectroscopy (ATR-FTIR) with Electrochemical Impedance Spectroscopy (EIS). The capability of this integrated analytical set-up was explored by studying the characteristics of three different aluminium/polymer systems upon exposure to a 1 M NaSCN solution. Various qualifications of the systems were distinguished and the ingress of water and electrolyte, oxidation/corrosion of aluminium, swelling of the polymer and delamination were identified. This new set of complementary acting tools provides comprehensive information of the aluminium/polymer system, with ATR-FTIR being specific for the surface-near region and EIS taking into account changes within the whole system. While oxidation/corrosion and delamination are processes difficult to distinguish by EIS, oxide formation could be confirmed by ATR-FTIR. While it may be difficult to distinguish between delamination and polymer swelling with ATR-FTIR, these processes were more easily identified with EIS.