Strontium and barium 4-carboxylphenylphosphonates: Hybrid anti-corrosion coatings for magnesium alloy

This paper reports two alkaline-earth metal phosphonates with formulae M(4-cppH2)2 [M = Sr (1), Ba (2); 4-cppH3 = 4-carboxylphenylphosphonic acid]. Compound 1 shows a chain structure made up of edge-sharing {SrO8} polyhedra and {PO3C} tetrahedra. While in compound 2, the edge-sharing {BaO8} polyhedra are connected by the {PO3C} tetrahedra to form a two-dimensional inorganic layer. Neighboring chains in 1 or layers in 2 are cross-linked by hydrogen bond interactions between the protonated carboxylate groups, resulting in three-dimensional supramolecular structures. The magnesium alloys coated with 1 or 2 films show significantly improved anti-corrosion behaviors compared to the bare substrate.

Graphical abstractThe alkaline-earth metal phosphonates Sr(4-cppH2)2 (1) with a chain structure and Ba(4-cppH2)2 (2) with a layer structure are reported based on 4-carboxylphenylphosphonic acid. The magnesium alloy coated by 1 or 2 films shows significantly improved anti-corrosion behaviors.Figure optionsDownload full-size imageDownload as PowerPoint slideHighlights► Alkaline-earth metal phosphonates with chain and layer structures showing anti-corrosion behaviors on magnesium alloy surface. ► Strontium and barium 4-carboxylphenylphosphonates as corrosion inhibitors on magnesium alloy surface. ► Hybrid alkaline-earth metal phosphonate polymers as corrosion inhibitor on magnesium alloy surface.