The present invention discloses an etchant and an etching method for a copper-molybdenum film layer. The etchant includes a main etchant, and the main etchant includes hydrogen peroxide, a chelating agent, a first inorganic acid, and water. A mass percentage of the chelating agent in the main etchant is in a range of 2% to 10%, a mass percentage of the first inorganic acid in the main etchant is in a range of 1% to 10%, and a mass percentage of the hydrogen peroxide in the main etchant is in a range of 4% to 10%.

The present invention discloses an etchant and an etching method for a copper-molybdenum film layer. The etchant includes a main etchant, and the main etchant includes hydrogen peroxide, a chelating agent, a first inorganic acid, and water. A mass percentage of the chelating agent in the main etchant is in a range of 2% to 10%, a mass percentage of the first inorganic acid in the main etchant is in a range of 1% to 10%, and a mass percentage of the hydrogen peroxide in the main etchant is in a range of 4% to 10%.

The present invention aims to provide a metal coating method whereby a paint can be applied directly, easily, with high adhesion, and with cost increases suppressed, to the surface of titanium and other metals that have a hard passivated coating on the surface thereof. This method uses paint to coat a metal that has the surface thereof coated in a passivated coating and comprises: an etching step in which the passivated coating is removed using an etching solution and the surface is exposed; a diluent coating step in which, after the etching step, a diluent capable of diluting the paint is coated on the surface that is in a liquid-coated state; and a painting step in which the surface is coated in paint after the diluent coating step.

The present invention aims to provide a metal coating method whereby a paint can be applied directly, easily, with high adhesion, and with cost increases suppressed, to the surface of titanium and other metals that have a hard passivated coating on the surface thereof. This method uses paint to coat a metal that has the surface thereof coated in a passivated coating and comprises: an etching step in which the passivated coating is removed using an etching solution and the surface is exposed; a diluent coating step in which, after the etching step, a diluent capable of diluting the paint is coated on the surface that is in a liquid-coated state; and a painting step in which the surface is coated in paint after the diluent coating step.

The present invention provides a chemical solution having excellent storage stability and excellent defect inhibition performance. The present invention also provides a method for treating a substrate. The chemical solution according to an embodiment of the present invention is a chemical solution used for removing a transition metal-containing substance on a substrate. The chemical solution contains one or more kinds of halogen oxoacids selected from the group consisting of a halogen oxoacid and a salt thereof and one or more kinds of specific anions selected from the group consisting of SO.sub.4.sup.2−, NO.sub.3.sup.−, PO.sub.4.sup.3−, and BO.sub.3.sup.3−. In a case where the chemical solution contains one kind of the specific anion, a content of one kind of the specific anion is 5 ppb by mass to 1% by mass with respect to a total mass of the chemical solution. In a case where the chemical solution contains two or more kinds of the specific anions, a content of each of two or more kinds of the specific anions is equal to or lower than 1% by mass with respect to the total mass of the chemical solution, and a content of at least one of two or more kinds of the specific anions is equal to or higher than 5 ppb by mass with respect to the total mass of the chemical solution.

The present invention provides a chemical solution having excellent storage stability and excellent defect inhibition performance. The present invention also provides a method for treating a substrate. The chemical solution according to an embodiment of the present invention is a chemical solution used for removing a transition metal-containing substance on a substrate. The chemical solution contains one or more kinds of halogen oxoacids selected from the group consisting of a halogen oxoacid and a salt thereof and one or more kinds of specific anions selected from the group consisting of SO.sub.4.sup.2−, NO.sub.3.sup.−, PO.sub.4.sup.3−, and BO.sub.3.sup.3−. In a case where the chemical solution contains one kind of the specific anion, a content of one kind of the specific anion is 5 ppb by mass to 1% by mass with respect to a total mass of the chemical solution. In a case where the chemical solution contains two or more kinds of the specific anions, a content of each of two or more kinds of the specific anions is equal to or lower than 1% by mass with respect to the total mass of the chemical solution, and a content of at least one of two or more kinds of the specific anions is equal to or higher than 5 ppb by mass with respect to the total mass of the chemical solution.

The invention relates to a chemical-mechanical polishing composition comprising (a) a first abrasive comprising cationically modified colloidal silica particles, (b) a second abrasive having a Mohs hardness of about 5.5 or more, (c) a cationic polymer, (d) an iron containing activator, (e) an oxidizing agent, and (f) water. The invention also relates to a method of chemically mechanically polishing a substrate, especially a substrate comprising tungsten and barrier layers (e.g., nitrides), with the polishing composition.

The invention relates to a chemical-mechanical polishing composition comprising (a) a first abrasive comprising cationically modified colloidal silica particles, (b) a second abrasive having a Mohs hardness of about 5.5 or more, (c) a cationic polymer, (d) an iron containing activator, (e) an oxidizing agent, and (f) water. The invention also relates to a method of chemically mechanically polishing a substrate, especially a substrate comprising tungsten and barrier layers (e.g., nitrides), with the polishing composition.

A method of manufacturing a semiconductor package, the method including providing a first seed layer on an insulation layer such that the first seed layer includes a first metal material; providing a second seed layer on the first seed layer such that the second seed layer includes a second metal material different from the first metal material; forming photoresist patterns on the second seed layer; forming conductive patterns between the photoresist patterns, including the second metal material, and having line shapes that extend in a first direction; removing the photoresist patterns; etching the second seed layer to form second seed patterns having line shapes extending in the first direction; and etching the first seed layer to form first seed patterns having line shapes extending in the first direction, wherein an etchant includes deionized water, a fluorine compound, a competing compound, and a corrosion inhibitor.

The invention concerns a method for the surface treatment of a component, for example a turbomachine component, the component comprising a surface to be treated, the method comprising the following steps: loading a first dispenser with a chemical etching solution and a second dispenser with a rinsing solution, positioning the first dispenser and the second dispenser opposite the surface to be treated, moving the first dispenser and the second dispenser along the surface to be treated, such that the surface to be treated successively receives the chemical etching solution followed by the rinsing solution.