Electrochemical-additive manufacturing systems comprising membranes

What is claimed is: 1 . An electrochemical-additive manufacturing system comprising: a system controller; a deposition power supply; deposition control circuits electrically coupled to the deposition power supply and communicatively coupled to and individually controlled by the system controller; an electrode array comprises individually-addressable electrodes, each electrically coupled to one of the deposition control circuits; a deposition electrode, electrically coupled to the deposition power supply and forming a gap with the electrode array; a membrane positioned within the gap between the deposition electrode and electrode array, wherein the membrane is configured to transmit protons through the membrane and to block at least metal ions from being transmitted through the membrane; and a membrane-support subsystem, positioned outside of the gap between the deposition electrode and electrode array, engaging and supporting the membrane in between the deposition electrode and electrode array, wherein the membrane-support subsystem is configured to move the membrane relative to the electrode array in at least one direction, parallel to a membrane-facing surface of the electrode array. 2 . The electrochemical-additive manufacturing system of claim 1 , wherein the membrane has a thickness of between 10 micrometers and 500 micrometers. 3 . The electrochemical-additive manufacturing system of claim 1 , further comprising a membrane support, positioned within the gap between the deposition electrode and electrode array, wherein the membrane support comprises support openings, each aligned with a different one of the individually-addressable electrodes. 4 . The electrochemical-additive manufacturing system of claim 3 , wherein the membrane comprises a plurality of disjoined structures, each positioned within a different one of the support openings. 5 . The electrochemical-additive manufacturing system of claim 3 , wherein: the membrane support comprises a first membrane-support component and a second membrane-support component, the first membrane-support component comprises a first subset of the support openings, the second membrane-support component comprises a second subset of the support openings aligned with the first subset of the support openings, and the membrane is positioned between the first membrane-support component and the second membrane-support component. 6 . The electrochemical-additive manufacturing system of claim 3 , wherein the support openings have a largest cross-sectional dimension (CSD O ) that is within 50% of a largest cross-sectional dimension (CSD P ) of each of the individually-addressable electrodes. 7 . The electrochemical-additive manufacturing system of claim 1 , wherein the membrane-support subsystem is configured to change an average distance between the membrane and the electrode array. 8 . The electrochemical-additive manufacturing system of claim 1 , further comprising a position actuator configured to adjust a gap between the deposition electrode and electrode array. 9 . The electrochemical-additive manufacturing system of claim 1 , further comprising a fluid-management subsystem configured to: supply an anolyte between the membrane and the electrode array, and supply a catholyte between the membrane and the deposition electrode such that the anolyte and the catholyte have different compositions. 10 . The electrochemical-additive manufacturing system of claim 9 , wherein the fluid-management subsystem is configured to: flow the anolyte between the membrane and the electrode array at a first flow rate; and flow the catholyte between the membrane and the deposition electrode at a second flow rate, different from the first flow rate. 11 . The electrochemical-additive manufacturing system of claim 9 , wherein the fluid-management subsystem is configured to: receive, recondition, and resupply the anolyte between the membrane and the electrode array; and receive, recondition, and resupply the catholyte between the membrane and the deposition electrode. 12 . An electrochemical-additive manufacturing system comprising: a system controller; a deposition power supply; deposition control circuits electrically coupled to the deposition power supply and communicatively coupled to and individually controlled by the system controller; an electrode array comprises individually-addressable electrodes, each electrically coupled to one of the deposition control circuits; a deposition electrode, electrically coupled to the deposition power supply and forming a gap with the electrode array; a membrane positioned within the gap between the deposition electrode and electrode array, wherein the membrane is configured to transmit protons through the membrane and to block at least metal ions from being transmitted through the membrane; and a membrane support, positioned within the gap between the deposition electrode and electrode array, wherein: the membrane support comprises support openings, each aligned with a different one of the individually-addressable electrodes, and the membrane comprises a plurality of disjoined structures, each positioned within a different one of the support openings. 13 . The electrochemical-additive manufacturing system of claim 12 , wherein: the membrane support comprises a first membrane-support component and a second membrane-support component, the first membrane-support component comprises a first subset of the support openings, the second membrane-support component comprises a second subset of the support openings aligned with the first subset of the support openings, and the membrane is positioned between the first membrane-support component and the second membrane-support component. 14 . The electrochemical-additive manufacturing system of claim 12 , wherein the support openings have a largest cross-sectional dimension (CSD O ) that is within 50% of a largest cross-sectional dimension (CSD P ) of each of the individually-addressable electrodes. 15 . The electrochemical-additive manufacturing system of claim 12 , further comprising a position actuator configured to adjust a gap between the deposition electrode and electrode array. 16 . The electrochemical-additive manufacturing system of claim 12 , further comprising a fluid-management subsystem configured to: supply an anolyte between the membrane and the electrode array, and supply a catholyte between the membrane and the deposition electrode such that the anolyte and the catholyte have different compositions. 17 . An electrochemical-additive manufacturing system comprising: a system controller; a deposition power supply; deposition control circuits electrically coupled to the deposition power supply and communicatively coupled to and individually controlled by the system controller; an electrode array comprises individually-addressable electrodes, each electrically coupled to one of the deposition control circuits; a deposition electrode, electrically coupled to the deposition power supply and forming a gap with the electrode array; a membrane positioned within the gap between the deposition electrode and electrode array, wherein the membrane is configured to transmit protons through the membrane and to block at least metal ions from being transmitted through the membrane; and a membrane support, positioned within the gap between the deposition electrode and electrode array, wherein: the membrane support comprises support openings, each aligned with a different one of the individually-addres