Electrode for electrochemical evolution of hydrogen

1 . An electrode for gas evolution in electrochemical processes comprising an electrically conductive substrate and at least one catalytic coating comprising ruthenium and at least one other metal selected from the group of alkaline earth metals, wherein the catalytic coating comprises 93-99 wt-% of ruthenium and 1-7 wt-% of metal selected from the group of alkaline earth metals, referred to the metals. 2 . The electrode according to claim 1 wherein the metal selected from the group of alkaline earth metals is strontium, calcium or barium. 3 . The electrode according to claim 1 wherein the catalytic coating has a ruthenium load between 5 and 15 g/m 2 . 4 . The electrode according to claim 1 wherein said conductive substrate is nickel. 5 . A method for preparing the electrode as defined in claim 1 , comprising the following steps: a. applying, to a conductive substrate, a solution containing precursors of ruthenium and of said metal selected from the group of alkaline earth metals, said solution comprising 93-99 wt-% of ruthenium and 1-7 wt-% of said metal selected from the group of alkaline earth metals, referred to the metals; b. subsequent drying at 30-80° C. and thermal decomposition at 450-600° C.; c. of repeating steps (a) and (b) until a catalytic coating is obtained with a specific ruthenium load between 5 and 15 g/m 2 . 6 . The method according to claim 5 comprising an initial treatment step preceding step (a), wherein said initial treatment step consists in the thermal treatment of said conductive substrate for a time not less than 15 minutes and at a temperature not lower than 450° C. 7 . A cell for electrolysis of alkali chloride solutions comprising an anodic compartment and a cathodic compartment separated by an ion-exchange membrane or by a diaphragm, wherein the cathodic compartment is equipped with the electrode according to claim 1 . 8 . An electrolyzer for the production of chlorine and alkali starting from alkaline brine, comprising a modular arrangement of cells, wherein each cell is equipped according to claim 7 . 9 . An electrolyzer for the production of hydrogen by water electrolysis comprising an anodic compartment and a cathodic compartment separated by a diaphragm, wherein the cathodic compartment is equipped with an electrode according to claim 1 .