Abstract: It is an object of the present invention to provide a layer having a barrier function and catalytic power and excelling in formation uniformity and coverage of an ultrathin film, provide a pretreatment technique making it possible to form an ultrafine wiring and form a thin seed layer of uniform film thickness, and provide a substrate including a thin seed layer formed with a uniform film thickness by electroless plating by using the aforementioned technique. The present invention provides a substrate in which an alloy film of one or more metal elements, having a barrier function, selected from among tungsten, molybdenum and, niobium and a metal element or metal elements, having catalytic power with respect to electroless plating, composed of ruthenium and/or platinum is formed by chemical vapor deposition (CVD) on a base to a film thickness of 0.5 nm to 5 nm in a composition with a content ratio of the one or more metal element having a barrier function of equal to or greater than 5 at.

Abstract: It is an object of the present invention to provide a technology for forming an ULSI fine copper wiring by a simpler method. An electronic component in which a thin alloy film of tungsten and a noble metal used as a barrier-seed layer for an ULSI fine copper wiring is formed on a base material, wherein the thin alloy film has a composition comprising tungsten at a ratio equal to or greater than 60 at. % and the noble metal at a ratio of equal to or greater than 5 at. % and equal to or less than 40 at. %. The noble metal is preferably one or more kinds of metals selected from the group consisting of platinum, gold, silver and palladium.

Abstract: A sputtering target with low generation of particles in which oxides, carbides, nitrides, borides, intermetallic compounds, carbonitrides, and other substances without ductility exist in a matrix phase made of a highly ductile substance at a volume ratio of 1 to 50%, wherein a highly ductile and conductive metal coating layer is formed on an outermost surface of the target.

Abstract: It is an object of the present invention to provide a novel imidazole alcohol compound that adheres strongly to metal surfaces in metal products, especially copper, aluminum and steel products, and that has a superior rust-preventive effect even in a thin film, and a surface-treating agent using the same. The novel imidazole alcohol compound is expressed by the following general formula (1) show a rust-preventive effect. (In general formula (1), R1, R2 and R3 are each hydrogen, a vinyl group or an alkyl group with 1 to 20 carbon atoms, an aromatic ring may be formed by R2 and R3, X indicates hydrogen, an alkyl group with 1 to 6 carbon atoms, or a substituent group which may contain N or O, m indicates an integer from 0 to 20, and n and l indicate integers from 1 to 3.) The above-mentioned imidazole alcohol compound can be produced by reacting an imidazole compound and an epoxy alcohol compound.

Abstract: An object of the present invention is to provide a plated object having a thin seed layer of uniform thickness that enables the fabrication of ultrafine wiring thereon in which, when the seed layer is formed by electroless copper plating, the uniformity and adherence thereof are improved over the aforementioned case in which electroless copper plating is performed on an elemental metal such as tungsten, molybdenum, etc., and the aforementioned complexity of forming two layers of a barrier layer and a catalyst metal layer before forming the copper seed layer is eliminated.

Abstract: The present invention pertains to an electrolytic copper plating method characterized in employing pure copper as the anode upon performing electrolytic copper plating, and performing electrolytic copper plating with the pure copper anode having a crystal grain diameter of 10 ?m or less or 60 ?m or more. Provided are an electrolytic copper plating method and a pure copper anode for electrolytic copper plating used in such electrolytic copper plating method capable of suppressing the generation of particles such as sludge produced on the anode side within the plating bath upon performing electrolytic copper plating, and capable of preventing the adhesion of particles to a semiconductor wafer, as well as a semiconductor wafer plated with the foregoing method and anode having low particle adhesion.

Abstract: It is an object of the present invention to provide a technology for forming an ULSI fine copper wiring by a simpler method. An electronic component in which a thin alloy film of tungsten and a noble metal used as a barrier-seed layer for an ULSI fine copper wiring is formed on a base material, wherein the thin alloy film has a composition comprising tungsten at a ratio equal to or greater than 60 at. % and the noble metal at a ratio of equal to or greater than 5 at. % and equal to or less than 40 at. %. The noble metal is preferably one or more kinds of metals selected from the group consisting of platinum, gold, silver and palladium.

Abstract: It is an object of the present invention to provide a technology for forming an ULSI fine copper wiring by a simpler method. An electronic component in which a thin alloy film of tungsten and a noble metal used as a barrier-seed layer for an ULSI fine copper wiring is formed on a base material, wherein the thin alloy film has a composition comprising tungsten at a ratio equal to or greater than 50 at. % and the noble metal at a ratio of equal to or greater than 5 at. % and equal to or less than 50 at. %. The noble metal is preferably one or more kinds of metals selected from the group consisting of ruthenium, rhodium, and iridium.

Abstract: An object of the present is to provide a ULSI micro-interconnect member having a seed layer which, particularly on the inner sidewalls of vias and trenches, is formed with a sufficient coverage and a film thickness uniform with that on surface portion, and which has a low level of impurities. Further objects of the invention are to provide a ULSI micro-interconnect member in which, by utilizing such a seed layer to subsequently effect copper electroplating, micro-interconnects have been formed without generating voids; a process for forming the same; and a semiconductor wafer in which such ULSI micro-interconnects have been formed.

Abstract: The present invention pertains to an electrolytic copper plating method characterized in employing pure copper as the anode upon performing electrolytic copper plating, and performing electrolytic copper plating with the pure copper anode having a crystal grain diameter of 10 ?m or less or 60 ?m or more. Provided are an electrolytic copper plating method and a pure copper anode for electrolytic copper plating used in such electrolytic copper plating method capable of suppressing the generation of particles such as sludge produced on the anode side within the plating bath upon performing electrolytic copper plating, and capable of preventing the adhesion of particles to a semiconductor wafer, as well as a semiconductor wafer plated with the foregoing method and anode having low particle adhesion.

Abstract: It is an object of the present invention to provide a substrate having a barrier film for preventing copper diffusion having both a barrier function and a catalytic function, wherein the barrier properties during high-temperature heating is excellent. A substrate having, on a base material, a barrier film for preventing copper diffusion comprising one or more metal elements selected from tungsten, molybdenum and niobium, a metal element having a catalytic function in electroless plating such as platinum, gold, silver and palladium, and nitrogen contained in the form of a nitride of the aforementioned one or more metal elements selected from tungsten, molybdenum and niobium. The said barrier film for preventing copper diffusion is manufactured by sputtering in a nitrogen atmosphere using a target containing one or more metal elements selected from tungsten, molybdenum and niobium and the aforementioned metal element having a catalytic function in electroless plating.

Abstract: It is an object of the present invention to provide a substrate having a barrier film for preventing copper diffusion having both a barrier function and a catalytic function, wherein the barrier properties during high-temperature heating is excellent. A substrate having, on a base material, a barrier film for preventing copper diffusion comprising one or more metal elements selected from tungsten, molybdenum and niobium, a metal element having a catalytic function in electroless plating such as ruthenium, rhodium, and iridium, and nitrogen contained in the form of a nitride of the aforementioned one or more metal elements selected from tungsten, molybdenum and niobium. The said barrier film for preventing copper diffusion is manufactured by sputtering in a nitrogen atmosphere using a target containing one or more metal elements selected from tungsten, molybdenum and niobium and the aforementioned metal element having a catalytic function in electroless plating.

Abstract: The present invention pertains to an electrolytic copper plating method characterized in employing pure copper as the anode upon performing electrolytic copper plating, and performing electrolytic copper plating with the pure copper anode having a crystal grain diameter of 10 ?m or less or 60 ?m or more. Provided are an electrolytic copper plating method and a pure copper anode for electrolytic copper plating used in such electrolytic copper plating method capable of suppressing the generation of particles such as sludge produced on the anode side within the plating bath upon performing electrolytic copper plating, and capable of preventing the adhesion of particles to a semiconductor wafer, as well as a semiconductor wafer plated with the foregoing method and anode having low particle adhesion.

Abstract: The present invention provides a plated article that has a thin seed layer having uniform thickness, formed by electroless plating and allowing formation of ultrafine wiring, and that avoids the complicated formation of a bilayer of a barrier layer and a catalytic metal layer prior to forming the seed layer. The present invention also provides a method for manufacturing the plated article. The plated article has an alloy thin film formed on a substrate and having a catalytically active metal (A) for electroless plating and a metal (B) capable of undergoing displacement plating with a metal ion contained in an electroless plating solution, and a metal thin film formed on the alloy thin film by electroless displacement and reduction plating. The alloy thin film of the catalytically active metal (A) and the metal (B) capable of displacement plating has a composition comprising 5 at % to 40 at % of the metal (A).

Abstract: The present invention pertains to an electrolytic copper plating method characterized in employing pure copper as the anode upon performing electrolytic copper plating, and performing electrolytic copper plating with the pure copper anode having a crystal grain diameter of 10 ?m or less or 60 ?m or more or a non-recrystallized anode. Provided are an electrolytic copper plating method and a pure copper anode for electrolytic copper plating used in such electrolytic copper plating method capable of suppressing the generation of particles such as sludge produced on the anode side within the plating bath upon performing electrolytic copper plating, and capable of preventing the adhesion to a semiconductor wafer, as well as a semiconductor wafer plated with the foregoing method and anode having low particle adhesion.

Abstract: The present invention pertains to an electrolytic copper plating method characterized in employing pure copper as the anode upon performing electrolytic copper plating, and performing electrolytic copper plating with the pure copper anode having a crystal grain diameter of 10 ?m or less or 60 ?m or more. Provided are an electrolytic copper plating method and a pure copper anode for electrolytic copper plating used in such electrolytic copper plating method capable of suppressing the generation of particles such as sludge produced on the anode side within the plating bath upon performing electrolytic copper plating, and capable of preventing the adhesion of particles to a semiconductor wafer, as well as a semiconductor wafer plated with the foregoing method and anode having low particle adhesion.

Abstract: The present invention provides a plated article that has a thin seed layer having uniform thickness, formed by electroless plating and allowing formation of ultrafine wiring, and that avoids the complicated formation of a bilayer of a barrier layer and a catalytic metal layer prior to forming the seed layer. The present invention also provides a method for manufacturing the plated article. The plated article has an alloy thin film formed on a substrate and having a catalytically active metal (A) for electroless plating and a metal (B) capable of undergoing displacement plating with a metal ion contained in an electroless plating solution, and a metal thin film formed on the alloy thin film by electroless displacement and reduction plating. The alloy thin film of the catalytically active metal (A) and the metal (B) capable of displacement plating has a composition comprising 5 at % to 40 at % of the metal (A).

Abstract: It is an object of the present invention to provide a novel imidazole alcohol compound that adheres strongly to metal surfaces in metal products, especially copper, aluminum and steel products, and that has a superior rust-preventive effect even in a thin film, and a surface-treating agent using the same. The novel imidazole alcohol compound is expressed by the following general formula (1) show a rust-preventive effect. (In general formula (1), R1, R2 and R3 are each hydrogen, a vinyl group or an alkyl group with 1 to 20 carbon atoms, an aromatic ring may be formed by R2 and R3, X indicates hydrogen, an alkyl group with 1 to 6 carbon atoms, or a substituent group which may contain N or O, m indicates an integer from 0 to 20, and n and l indicate integers from 1 to 3.) The above-mentioned imidazole alcohol compound can be produced by reacting an imidazole compound and an epoxy alcohol compound.

Abstract: A method for forming a seed layer for damascene copper wiring is provided. The method comprises the step of forming a seed layer, during damascene copper wiring formation, using an electroless plating solution comprising a water-soluble nitrogen-containing polymer and glyoxylic acid as a reducing agent, wherein the weight-average molecular weight (Mw) of the water-soluble nitrogen-containing polymer is 1,000 to less than 100,000. Preferably, the electroless plating solution further comprises phosphinic acid.

Abstract: An object is to provide an electroless copper plating solution that realizes uniform plating at lower temperatures, when the electroless copper plating is performed on a semiconductor wafer or other such mirror surface on which a plating reaction hardly occurs. An electroless copper plating solution, wherein, along with a first reducing agent, hypophosphorous acid or a hypophosphite is used as a second reducing agent, and a stabilizer to inhibit copper deposition is further used at the same time. Examples of the first reducing agent include formalin and glyoxylic acid, while examples of the hypophosphite include sodium hypophosphite, potassium hypophosphite, and ammonium hypophosphite. Examples of the stabilizer to inhibit copper deposition include 2,2?-bipyridyl, imidazole, nicotinic acid, thiourea, 2-mercaptobenzothiazole, sodium cyanide, and thioglycolic acid.