An apparatus and method for electrochemically depositing a unitary layer structure 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, an addressing circuit for receiving a signal containing anode address data and for outputting a signal causing an anode array pattern; and, a controller, in communication with the addressing circuit and the anode array, configured to electrically control each anode in the anode array to cause an electrochemical reaction at the cathode that deposits a unitary layer structure according to the anode array pattern signal.

A system and method of using electrochemical additive manufacturing to add interconnection features, such as wafer bumps or pillars, or similar structures like heatsinks, to a plate such as a silicon wafer. The plate may be coupled to a cathode, and material for the features may be deposited onto the plate by transmitting current from an anode array through an electrolyte to the cathode. Position actuators and sensors may control the position and orientation of the plate and the anode array to place features in precise positions. Use of electrochemical additive manufacturing may enable construction of features that cannot be created using current photoresist-based methods. For example, pillars may be taller and more closely spaced, with heights of 200 μm or more, diameters of 10 μm or below, and inter-pillar spacing below 20 μm. Features may also extend horizontally instead of only vertically, enabling routing of interconnections to desired locations.

An electroforming system and method for electroforming a component that includes a first housing and a second housing, where the second housing can define a conformable electroforming reservoir with a base structure that defines a fluid passage. The first housing can include a dissolution reservoir containing an electrolytic fluid that is fluidly coupled to the fluid passage of the second housing.

A method of manufacturing a metallic cutting member, through electrodeposition, comprises moving a dispenser filled with a metal salt solution to a first printing position, depositing a metal onto a conductive or semi-conductive substrate via the dispenser until the deposited metal contacts the dispenser, and upon detecting that the deposited metal contacts the dispenser, moving the dispenser to a second printing position.

A method for producing metal decorations on a curved dial made of insulating material includes forming, by a method of the LIGA-UV type, a mould made of photosensitive resin and of galvanically depositing a layer of at least one metal from the conductive layer in order to form a block substantially reaching the upper surface of the photosensitive resin.

Disclosed herein are dendritically porous three-dimensional structures, including hierarchical dendritically porous three-dimensional structures. The structures include metal foams and graphite structures, and are useful in energy storage devices as well as chemical catalysis.

Process of electroforming a metal structure, in particular a structure with a tip protruding from adjacent outer layers. The process comprises the following steps; a first layer is deposited on a substrate followed by one or more next layers partially overlapping the first layer to form an intermediate structure having a substrate surface facing the substrate; in a next step, the intermediate structure is removed from the substrate and one or more further layers are deposited on said substrate surface of the intermediate structure.

An electrochemical-deposition apparatus includes an electrode array, a photoconductor, an electrically conductive layer, an electromagnetic-radiation emitter, an electric-power source, and a controller. The controller is configured to direct electric power to be supplied from the electric-power source to the electrically conductive layer and direct the electromagnetic-radiation emitter to generate electromagnetic radiation. When the electric power is supplied to the electrically conductive layer and when the electromagnetic radiation is generated, the photoconductor is illuminated at a first radiation level and a first level of electric current is enabled through the photoconductor and the at least one deposition electrode. When the electric power is supplied to the electrically conductive layer and when the electromagnetic radiation is generated, the photoconductor is illuminated at a second radiation level and a second level of electric current is enabled through the photoconductor and the at least one deposition electrode.

An electroforming master including an n-type semiconductor, and a substrate provided with a pattern on a surface thereof, in which an oxide film is formed on the surface, and a thickness of the oxide film is 18 Å or smaller, a method for producing the above-described electroforming master, and a method for producing an electroforming material using the above-described electroforming master.

A method of making an electrical component includes transmitting electrical energy from a power source through one or more deposition anodes, through an electrolyte solution, and to an intralayer electrical-connection feature of a build plate, such that material is electrochemically deposited onto the intralayer electrical-connection feature and forms an interlayer electrical-connection feature. The method also includes securing a dielectric material so that the dielectric material contacts and electrically insulates the intralayer electrical-connection feature and contacts and at least partially electrically insulates the interlayer electrical-connection feature. The method additionally includes depositing a seed layer onto the dielectric material and the interlayer electrical-connection feature, electrochemically depositing material onto the seed layer, to form at least one second intralayer electrical-connection feature of the electrical component, and removing any one or more portions of the seed layer onto which no portion of the at least one second intralayer electrical-connection feature is formed.