Metal-air button cells and method of manufacturing the same

The invention claimed is: 1. A metal-air button cell comprising a closed cell housing and, arranged therein, an air cathode and a metal-based anode separated from one another by a separator, wherein the cell housing is substantially composed of a first housing half-part and a second housing half-part, the housing half-parts are configured to be cup-shaped and have a base and a circumferential side wall, the base of the second housing half-part has one or more entry and/or exit openings for atmospheric oxygen, the air cathode is disc-shaped and positioned on the base of the second housing half-part such that it covers the entry and/or exit openings and its periphery bears on an inner side of a circumferential side wall of the second housing half-part, an electrically conductive coating is arranged on the inner side of the side wall at a height on which the periphery bears, and the electrically conductive coating has a matrix of a binding agent and, embedded therein, electrically conductive particles. 2. The cell according to claim 1 , wherein the coating has a matrix of a binding agent and, embedded therein, electrically conductive particles of a carbon-based material and/or of a metal. 3. The cell according to claim 1 , wherein the coating is formed from an adhesive comprising an epoxy, a polyimide or a polyamide as a binding agent. 4. The cell according to claim 1 , wherein the coating is formed from a paste, in particular a printable and/or dosable paste, having a cellulosic derivate or a polyacrylate as a binding agent. 5. The cell according to claim 1 , wherein a porous air distributor is arranged between the air cathode and the base of the first housing half-part. 6. A method of manufacturing a metal-air button cell according to claim 1 , comprising: providing a first and a second housing half-part, wherein the housing half-parts are configured to be cup-shaped and have a base and a circumferential side wall and wherein the base of the second housing half-part has one or more entry and/or exit openings for atmospheric oxygen, positioning or forming a metal-based anode within the first housing half-part, (a) positioning a disc-shaped air cathode on the base of the second housing half-part such that it covers the entry and/or exit openings and its periphery bears on the inner side of the circumferential side wall of the second housing half-part, and covering the cathode with a separator or, alternatively, (b) positioning a disc-shaped cathode-separator composite on the base of the second housing half-part, assembling the cell housing by inserting the first housing half-part having the metal-based anode into the second housing half-part and sealing the cell housing by a beading process, and an electrically conductive coating is applied on the inner side of the side wall at that height on which the periphery bears. 7. The method according to claim 6 , wherein the coating is applied before the air cathode is positioned on the base of the second housing half-part.