Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
6470333 | Electrochimica Acta | 2017 | 8 Pages |
A porous Ag network has been deposited on laser structured Ni supports by using the dynamic hydrogen template deposition (DHTD) technique. For a better hydrogen evolution, a 10Â nm Pt layer has been sputtered on the Ni supports before Ag deposition. In a subsequent step, the Ag network has been modified by electrochemical Pt deposition in a replacement reaction forming a porous Pt@Ag network. Different Pt species are formed at different positions of the Ag network: Pure Pt on top and Ag1Pt1 alloy at the interface between the Ag network and the deposited Pt film. Laser structuring the substrate in advance can facilitate mass transport, especially for the galvanic Pt replacement reaction, and improves the performance of the electrode. As a result, the performance of the Pt@Ag network on laser structured electrodes is significantly higher compared to a non-structured electrode.