The present disclosure provides electrolyte solutions for electrodeposition of zinc-iron alloys, methods of forming electrolyte solutions, and methods of electrodepositing zinc-iron alloys. An electrolyte solution for electroplating can include an alkali metal citrate, an alkali metal acetate, a citric acid, and glycine with a metal salt. An electrolyte solution can be formed by dissolving an alkali metal citrate, an alkali metal acetate, a citric acid, and glycine in water or an aqueous solution. Electrodepositing zinc-iron alloys on a substrate can include introducing a cathode and an anode into an electrolyte solution comprising an alkali metal citrate, an alkali metal acetate, a citric acid, and glycine. Electrodepositing can further include passing a current between the cathode and the anode through the electrolyte solution to deposit zinc and iron onto the cathode.

An apparatus for stereo-electrochemical deposition of metal layers consisting of an array of anodes, a cathode, a positioning system, a fluid handling system for an electrolytic solution, communications circuitry, control circuitry and software control. The anodes are electrically operated to promote deposition of metal layers in any combination on the cathode to fabricate a structure.

An apparatus for stereo-electrochemical deposition of metal layers consisting of an array of anodes, a cathode, a positioning system, a fluid handling system for an electrolytic solution, communications circuitry, control circuitry and software control. The anodes are electrically operated to promote deposition of metal layers in any combination on the cathode to fabricate a structure.

An apparatus and method for electrochemically depositing a layer using a reactor configured to contain an electrolyte solution with an anode array containing a plurality of independently electrically controllable anodes arranged in a two-dimensional array, a cathode, at least one sensor and a microcontroller programmed with instructions that when executed by the microcontroller cause the microcontroller to (i) control the current or voltage applied to one anode of the plurality of anodes; (ii) measure the current or the voltage of one anode of the plurality of anodes using the at least one sensor to create a measurement information; (iii) interpret the measurement information causing the microcontroller to send signals to one or more anodes in the anode array to modify their voltage and/or current to cause a localized deposition of the unitary layer structure or the series of unitary layer structures.

An apparatus and method for electrochemically depositing a layer using a reactor configured to contain an electrolyte solution with an anode array containing a plurality of independently electrically controllable anodes arranged in a two-dimensional array, a cathode, at least one sensor and a microcontroller programmed with instructions that when executed by the microcontroller cause the microcontroller to (i) control the current or voltage applied to one anode of the plurality of anodes; (ii) measure the current or the voltage of one anode of the plurality of anodes using the at least one sensor to create a measurement information; (iii) interpret the measurement information causing the microcontroller to send signals to one or more anodes in the anode array to modify their voltage and/or current to cause a localized deposition of the unitary layer structure or the series of unitary layer structures.

Hot-stamped steel includes: a base metal that is steel including a tempered portion having hardness corresponding to 85% or less of the highest quenching hardness, the highest quenching hardness being defined as a Vickers hardness at a depth position spaced away from a surface by times a sheet thickness in a case of performing water quenching after heating at a temperature equal to or higher than an A.sub.c3 point and retention for 30 minutes; and a Zn coating layer that is formed on the tempered portion of the base metal. The Zn coating layer includes a solid-solution layer including a solid-solution phase that contains Fe and Zn that is solid-soluted in Fe, and a lamella layer that includes the solid-solution phase and a capital gamma phase. An area ratio of the lamella layer in the Zn coating layer is 20% or less.

An apparatus for stereo-electrochemical deposition of metal layers consisting of an array of anodes, a cathode, a positioning system, a fluid handling system for an electrolytic solution, communications circuitry, control circuitry and software control. The anodes are electrically operated to promote deposition of metal layers in any combination on the cathode to fabricate a structure.

An apparatus for stereo-electrochemical deposition of metal layers consisting of an array of anodes, a cathode, a positioning system, a fluid handling system for an electrolytic solution, communications circuitry, control circuitry and software control. The anodes are electrically operated to promote deposition of metal layers in any combination on the cathode to fabricate a structure.

An apparatus for stereo-electrochemical deposition of metal layers consisting of an array of anodes, a cathode, a positioning system, a fluid handling system for an electrolytic solution, communications circuitry, control circuitry and software control. The anodes are electrically operated to promote deposition of metal layers in any combination on the cathode to fabricate a structure.

An apparatus for use in electrochemical layer deposition includes an anode array containing a plurality of independently electrically controllable anodes and immersible in an electrolyte. The plurality of anodes are arranged in a two-dimensional array. The anode array is connected electrically to, or disposed upon an integrated circuit, semiconductor, or combination of conductive and insulative elements meant for biasing the plurality of anodes with a potential. An anode addressing circuit is provided to receive a signal containing anode address data and to output a signal causing an anode array pattern. The anode addressing circuit communicates with a controller and the anode array. The controller is configured to electrically control each one of the plurality of anodes in the anode array to result in an electrochemical reaction at a cathode to deposit a layer corresponding to the anode array pattern signal received from the addressing circuit.