Influence of Alloy Composition and Dealloying Solution on the Formation and Microstructure of Monolithic Nanoporous Silver through Chemical Dealloying of Al−Ag Alloys

Abstract

We present a facile and effective route to fabricate monolithic nanoporous silver (NPS) ribbons through chemical dealloying of melt-spun Al−Ag alloys comprising α-Al(Ag) and Ag2Al under free corrosion conditions. The microstructure of the NPS ribbons was characterized using X-ray diffraction (XRD), scanning electron microscopy (SEM), transmission electron microscopy (TEM), and energy dispersive X-ray analysis (EDX). The experimental results show that alloy composition and dealloying solution have a significant influence on the dealloying process and the formation of NPS. The Al−Ag alloys with 15−40 atom % Ag can be fully dealloyed in the 5 wt % HCl solution, but a minor amount of undealloyed Ag2Al can be detected in the as-dealloyed ribbons from the Al-45 and 50 Ag alloys. The existence of α-Al(Ag) can supply penetration paths for the solution and promote the dealloying of Ag2Al in the two-phase Al−Ag alloys. Moreover, the synergetic dealloying of α-Al(Ag) and Ag2Al in the two-phase Al−Ag alloys and fast ...