Computational simulation and efficient evaluation on corrosion inhibitors for electrochemical etching on aluminum foil

The tunnel density and capacitance of etched aluminum foils would be significantly decreased for excessive dissolution during electrochemical etching process. The addition of low-concentration corrosion inhibitor solutions effectively improved the tunnel distribution. Various organic molecules as 8HQ, BTA, MBT, Citric Acid and Oleic Acid were analyzed using DFT and MD simulations and etching solutions with corrosion inhibitors at concentration of 0.10 mmol L -1 were designed. Relationship of physicochemical parameter and experimental tunnel density was established. The results indicate that Oleic Acid presents excellent corrosion inhibiting performance on the improvement of tunnel density as rho = 1.5925 x 10 7 cm -2 and predicted capacitance as C = 0.72 mu F cm - 2 at 520 V.

Automated summary

The study found that the density and capacitance of etched aluminum foils can be improved by using low-concentration corrosion inhibitor solutions during the electrochemical etching process. Oleic Acid showed excellent corrosion inhibiting performance, significantly increasing tunnel density and predicted capacitance.