Abstract: The present technology generally relates to methods for metallizing an aluminum paste comprising contacting the aluminum paste with a cleaner, contacting the aluminum paste with an oxidation inhibiting deposit solution to deposit a layer of an oxidation inhibiting composition onto the aluminum paste and contacting the aluminum paste with conductive metal deposit solution to deposit a layer of a conductive metal onto the aluminum paste. Specifically, the present technology includes methods metallizing an aluminum paste comprising contacting the aluminum paste with an acidic cleaner, contacting the aluminum paste with an acid zincate solution to deposit zinc onto the aluminum paste and contacting the aluminum paste with an electroless nickel deposit solution to coat the aluminum paste with a nickel-phosphorus layer.

Abstract: The present invention provides a printed circuit board comprising a metal surface, such as a final finish, that has been coated with a self-assembled monolayer. The self-assembled monolayer forms a coating on the metal surface that is resistant to corrosion, thus preserving the solderability of the metal surface. The present invention also provides a solution of an alkanethiol and a non-organic solvent that can be used for forming a self-assembled monolayer on a metal substrate. The present invention also provides a process for depositing a self-assembled monolayer on a metal substrate by applying a solution of an alkanethiol and a non-organic solvent to a metal substrate, such as a surface of a printed circuit board.

Abstract: The invention is directed to a solution and process for improving the solderability of a metal surface. In one embodiment, the invention is a silver deposit solution comprising an acid, a source of silver ions, and an additive selected from among pyrroles, triazoles, and tetrazoles, as well as derivatives and mixtures of those components. In another embodiment, the silver deposit solution also includes a 6-membered heterocyclic ring compound, wherein three members of the 6-membered heterocyclic ring are nitrogen atoms. Still another embodiment is a process for improving the solderability of a metal surface which involves applying a silver deposit solution as previously described to a metal surface.

Abstract: A method of stripping nickel from a printed wiring board comprises providing a printed wiring board with a nickel deposit on a surface and contacting the nickel deposit with phosphate ions and an oxidizer. An aqueous solution comprises ammonium ions, phosphate ions and an oxidizing agent present in amounts effective to strip nickel. An aqueous solution comprises about 1% to about 10% by weight hydrogen peroxide and about 5% to about 30% by weight of an ammonium phosphate. A method of pre-treating a copper substrate comprises providing a printed wiring board having a copper substrate and contacting the copper substrate with phosphate ions, and an oxidizer. A method of neutralizing permanganate on a printed wiring board comprises providing a printed wiring board with a permanganate residue on the printed wiring board and contacting the permanganate residue with phosphate ions, and an oxidizer.

Abstract: A method of stripping nickel from a printed wiring board comprises providing a printed wiring board with a nickel deposit on a surface and contacting the nickel deposit with phosphate ions and an oxidizer. An aqueous solution comprises ammonium ions, phosphate ions and an oxidizing agent present in amounts effective to strip nickel. An aqueous solution comprises about 1% to about 10% by weight hydrogen peroxide and about 5% to about 30% by weight of an ammonium phosphate. A method of pre-treating a copper substrate comprises providing a printed wiring board having a copper substrate and contacting the copper substrate with phosphate ions, and an oxidizer. A method of neutralizing permanganate on a printed wiring board comprises providing a printed wiring board with a permanganate residue on the printed wiring board and contacting the permanganate residue with phosphate ions, and an oxidizer.

Abstract: The invention is directed to a method and composition for providing chemically-resistant roughened copper surfaces suitable for subsequent multilayer lamination. In one embodiment, a smooth copper surface is contacted with an adhesion promoting composition under conditions effective to provide a roughened copper surface, the adhesion promoting composition comprising an oxidizer, a pH adjuster, a topography modifier, and a sulfur-containing coating stabilizer. In another embodiment, a smooth copper surface is contacted with an adhesion promoting composition under conditions effective to provide a roughened copper surface, the adhesion promoting composition comprising an oxidizer, a pH adjuster, and a topography modifier. Then, in a subsequent step, the roughened copper surface is contacted with an acid resistance promoting composition.