Device and method for carbon dioxide electrolysis or carbon monoxide electrolysis

1 . An anode-side half-cell for an electrochemical cell of an electrolysis device for carbon dioxide electrolysis and/or for carbon monoxide electrolysis, comprising: a separator which is in the form of a membrane and has an anode-side separator surface and a cathode-side separator surface on the opposite side from the anode-side separator surface, a catalyst layer having a first catalyst surface and a second catalyst surface on the opposite side from the first catalyst surface, wherein the first catalyst surface faces the anode-side separator surface, and a fluid-permeable anode plate having a first anode surface, wherein the first anode surface faces the second catalyst surface. 2 . The anode-side half-cell as claimed in claim 1 , wherein the anode plate has a second anode surface on the opposite side from the first anode surface, wherein where a contact plate is disposed on the second anode surface and wherein at least the anode plate or the contact plate serves for electrical connection to an electrical energy source which provides an electrical anode potential. 3 . The anode-side half-cell as claimed in claim 1 , wherein at least the anode plate or a contact plate includes titanium and/or a titanium alloy. 4 . The anode-side half-cell as claimed in claim 1 , wherein the anode plate is at least partly porous. 5 . The anode-side half-cell as claimed in claim 1 , wherein the first anode surface is connected to the second catalyst surface by an electrically conductive bonding technique. 6 . The anode-side half-cell as claimed in claim 5 , wherein the bonding technique uses an electrically conductive adhesive. 7 . The anode-side half-cell as claimed in claim 1 , wherein the second catalyst surface has projections that protrude from this surface and project into the anode plate through the first anode surface for bonding to the anode plate. 8 . The anode-side half-cell as claimed in claim 7 , wherein the projections are formed from the same material as the catalyst layer. 9 . The anode-side half-cell as claimed in claim 7 , wherein the projections are formed by mutually spaced pins and the anode plate has receiving openings for receiving the pins. 10 . The anode-side half-cell as claimed in claim 1 , wherein a contact plate has a contact plate surface which is on the opposite side from the second anode surface and has connecting elements at least for mechanical connection of the contact plate surface to the second anode surface. 11 . The anode-side half-cell as claimed in claim 10 , wherein the connecting elements and the contact plate are electrically conductive. 12 . An electrochemical cell of an electrolysis device for carbon dioxide electrolysis and/or for carbon monoxide electrolysis, comprising: a cathode region having an electrical cathode connection, a gas diffusion electrode, a first feed connection for supply of carbon dioxide and a first drain connection for draining of electrolysis substances at least partly formed in the intended operation of the electrochemical cell, an anode region which is formed separately from the cathode region by a separator and has an electrical anode connection, an anode plate, a second feed connection for supply of a proton-releasing substance and a second drain connection for draining of electrolysis residues at least partly formed in the intended operation of the electrochemical cell, wherein the cathode connection and the anode connection are designed to be electrically coupled to corresponding electrical connections of an electrical energy source that provides an electrical electrolysis voltage, wherein the anode region and the separator are designed as anode-side half-cell as claimed in claim 1 . 13 . The electrochemical cell as claimed in claim 12 , wherein characterized in that the elements of the cathode region and of the anode region are arranged in a stack. 14 . An electrolysis device for carbon dioxide electrolysis and/or for carbon monoxide electrolysis, characterized by comprising: electrochemical cells as claimed in claim 12 , wherein the electrochemical cells are in a spatially directly adjoining arrangement. 15 . A method of producing an anode-side half-cell for an electrochemical cell of an electrolysis device for carbon dioxide electrolysis and/or for carbon monoxide electrolysis, comprising: arranging an anode-side separator surface of a separator which is in the form of a membrane and has a cathode-side separator surface on the opposite side from the anode-side separator surface at a first catalyst surface of a catalyst layer, which catalyst layer has a second catalyst surface on the opposite side from the first catalyst surface, and arranging a first anode surface of a fluid-permeable anode plate at the second catalyst surface. 16 . The anode-side half-cell as claimed in claim 6 , wherein the electrically conductive adhesive includes particles of iridium(IV) oxide. 17 . The anode-side half-cell as claimed in claim 9 , wherein the first anode surface has receiving openings for receiving the pins.