A workpiece holding jig includes a back panel and a frame body, the frame body includes a main body having an annular shape, a conductive member provided all over the main body, a contact member provided along the conductive member, the contact member being electrically connected to the conductive member to come into electrical contact with a peripheral portion of the workpiece, and a seal member provided all over the main body and located on an inner side of the main body relative to the contact member, the frame body is adapted to form a sealed space that accommodates the peripheral portion of the workpiece, the conductive member, and the contact member in a state where the seal member and the contact member are in contact with the peripheral portion, and the frame body includes a liquid inlet through which a liquid is injected into the sealed space.

A plating method includes holding a substrate with a substrate holder while bringing a sealing member into pressure contact with a peripheral portion of the substrate to form an enclosed internal space in the substrate holder; performing a first-stage leakage test of the substrate holder by producing a vacuum in the internal space and checking whether pressure in the internal space reaches a predetermined vacuum pressure within a certain period of time; and if the substrate holder has passed the first-stage leakage test, performing a second-stage leakage test of the substrate holder by closing off the internal space after producing the vacuum therein and checking whether a change in the pressure in the internal space reaches a predetermined value within a certain period of time.

The present invention improves the hydrophilicity of a substrate surface, and suppresses variation in the degree of hydrophilicity with each substrate. A plating apparatus is provided that performs a plating process on a substrate having a resist pattern. This plating apparatus includes a pretreatment bath that performs hydrophilic treatment by bringing a pretreatment liquid into contact with a surface to be plated of the substrate, and a plating bath that performs a plating process on a substrate that has undergone the hydrophilic treatment. The pretreatment bath includes a pretreatment liquid supplying device that supplies the pretreatment liquid into the pretreatment bath, and an ultraviolet light irradiation device that irradiates ultraviolet light onto the surface to be plated of the substrate.

An apparatus for electroplating a semiconductor wafer includes an insert member configured to circumscribe a processing region. The insert member has a top surface. A portion of the top surface of the insert member has an upward slope that slopes upward from a peripheral area of the top surface of the insert member toward the processing region. The apparatus also includes a seal member having an annular-disk shape. The seal member is positioned on the top surface of the insert member. The seal member is flexible such that an outer radial portion of the seal member conforms to the upward slope of the top surface of the insert member and such that an inner radial portion of the seal member projects inward toward the processing region.

A method of plating a metal layer on a work piece includes exposing a surface of the work piece to a plating solution, and supplying a first voltage at a negative end of a power supply source to an edge portion of the work piece. A second voltage is supplied to an inner portion of the work piece, wherein the inner portion is closer to a center of the work piece than the edge portion. A positive end of the power supply source is connected to a metal plate, wherein the metal plate and the work piece are spaced apart from each other by, and are in contact with, the plating solution.

A method which can perform a soft pre-wetting treatment of a substrate, such as a wafer, with use of a pre-wetting liquid in a smaller amount. This method includes: holding a substrate between a first holding member and a second holding member, with the surface of the substrate being exposed through an opening of the second holding member, and pressing a sealing ridge of the substrate holder against a peripheral portion of the substrate; pressing a sealing block against the substrate holder; forming a vacuum in an external space; performing a seal inspection to check a sealed state provided by the sealing ridge based on a change in pressure in the external space; and performing a pre-wetting treatment by supplying a pre-wetting liquid to the external space while evacuating air from the external space to bring the pre-wetting liquid into contact with the exposed surface of the substrate.

Provided is a substrate holder where an effect of a pressure of a plating solution can be suppressed. A substrate holder includes first and second holding members for sandwiching a substrate. The first holding member includes: a support base; a movable base for supporting the substrate; and a biasing mechanism disposed between the support base and the movable base, and biasing the movable base in a direction along which the movable base is separated from the support base. The second holding member includes a protruding portion brought into contact with the substrate so as to seal the substrate. A biasing force of the biasing mechanism which is applied to a region or a position of the movable base differs from a biasing force of the biasing mechanism which is applied to another region or at another position of the movable base.

A plating system comprising a plating tank for applying plate processing to a substrate, a sensor configured to measure actual plating film thickness of the substrate, and a controller configured to control plating current supplied to the plating tank and plating time for the plate processing of the substrate within the plating tank. The controller is capable of setting target plating film thickness, plating current, and plating time as a plate processing recipe. At least one of the plating current and the plating time is automatically corrected so that the actual plating film thickness and the target plating film thickness become equal to each other, and the result is reflected in the plate processing for the subsequent substrate.

A method includes disposing a wafer in a cup of a clamshell of an electroplating apparatus. The wafer is clamped using the cup and a cone of the clamshell. First pressure forces of contacts of the cup applied by the wafer is detected. The first pressure forces are respective compared with corresponding predetermined pressure ranges.

Provided is a plating apparatus for plating a substrate by using a substrate holder including an elastic projection that seals a to-be-plated surface of the substrate, the plating apparatus comprising a measurement device configured to measure a deformed state of the elastic projection by measuring at least either one of a compression amount of the elastic projection and load applied to the elastic projection at a time when the substrate physically contacts the elastic projection of the substrate holder; and a controlling device configured to make a judgment on the basis of the measured deformed state as to whether sealing by the elastic projection is normal.