TH21846B - Regeneration method for plating solution - Google Patents

Abstract

DC60 (18/07/45) The invention relates to the method of deposition of metal layers and involves the method of A regenerate a solution containing metal ions in a state of high oxidation. To regenerate the tin ion It is used from tin plating solution by adding metal. Known in the Renaissance to bring the solution The metal is plated onto tin to form tin (II) ions. However, the amount of tin contained in The regenerate bath will increase slowly and steadily. The answer to this problem is for use with electrolytic reagent cells, which will be equipped with at least one cathode. And along with at least one composite anode The tin used for regeneration will be The cathode is deposited by electrolytes from the solution to, at least, the cathode is made up of one of the electrolytic reagent cells. The solution is transported onto the tin that is used for regenerating to reduce the tin (IV) ions to the tin (II) ions. A regenerate a solution containing metal ions in a state of high oxidation. To regenerate the tin ion It is used from the tin solution by adding metal. Is known in the art and science to bring the solution The metal is plated onto tin to form tin (II) ions. However, the amount of tin contained in The regenerate bath will increase slowly. And continuously The answer to this problem is for use with an electrolyte reagent cell, where minimal sample preparation is provided. And along with at least one composite anode The tin used for regeneration will be The cathode is deposited by electrolytes from the solution to, at least, the cathode is made up of one of the electrolytic reagent cells. The solution is transported onto the re-regenerated tin to reduce the tin (IV) ion to the tin (II) ion.

Claims (5)

1. Methods of metallization The following algorithms are included: a. Plating bath with metal ions under low oxidation condition b. Deposition of metal layer from the plating bath onto the workpiece c. Metal plating comes into contact with the metal used for regeneration to reduce ions. Metals in the state of high oxidation contained in the metal plating bath to the metal ions in the state Low oxidation Where the electrolyte regenerating cell, comprising at least a cathode, consists of At least one and at least one composite anode will be provided and where The metal used for regeneration is enriched by electrolytes from the plating bath. The metal goes on, at least the cathode consists of one 2. Method of claim No. 1, where the method is used for adding the tin layer. Where metal ions in Low oxidation states are Sn (II) ions and metal ions in high oxidation states are Sn (IV) ions and where metals are tin metals 3. Method of claim for one of the claims 1 or verse 2, where at least the cathode One component shall be made of copper or a copper alloy 4. Method of Claim Clause 1 or Clause 2, where at least the cathode One assembly will be made from inert material 5. Method of Clause 4 where at least the integral cathode will be made from. Titanium coated with platinum 6. Method of claim for any of Clause 1 to Clause 5, where the metal will be added. As a minimum, the cathode is composed of one by adjusting the cathode current density. 7. Method of claim for any of claims 1 to 6, where the metal accrues on at At a minimum, one composite cathode is mechanically removed and that after removal The metal will be in contact with a metal plating bath to reduce metal ions in the existing high oxidation state. In the plating bath to metal ions in low oxidation state. 8. Method of Claim Clause 1 to 7, where at least the anode One assembly will be separated from the space that surrounds, at least the cathode is assembled by one. Elective membranes 9. Method of claim 8, whereby the semipermeable membrane is shaped so that the metal ions may not 1 0. Method for any one of claim 8 and 9, whereby the membrane is Selective membranes via negative ion exchange or selective membranes via mono-selective ion exchange 1. 1. Method of Claim Clause 8 to 10, where the Acid will be provided. Give at least one of the enclosed spaces anode 1. 2. Any Claim Method of Clause 1 to Clause 11, where at least the electrode One with the impregnated metal is exposed to the plating bath and where, at least, the At least one electrode is polarized, with the anode relative to at least the other. One so that at least one electrode containing the metal to be deposited will dissolve at least partially. 3. Method of claim for any one of Clause 1 to Clause 12 at which the Workpiece will be Conveyed in a horizontal direction through the coating chamber for deposition of the metal layer 1. 4. Methods of regenerating a solution containing metal ions in the state of high oxidation, where in the method The solution is brought into contact with the metal used for regenerating to reduce the ions. Metals in the state of high oxidation are metal ions in the state of low oxidation. Where the electrolyte regenerative cell comprises at least cathode Assembled one and at least one composite anode will be provided and where the metal at Used for regeneration, it is enriched by electrolyte from solution to At least one cathode consists of 1. 5. Method according to claim 14, where the method is used for regenerating tin containing solutions, where metal ions in low oxidation state are Sn (II) ions and metal ions in the oxidation state. High oxidation is the Sn (IV) ion and where the metal is the metallic tin.