The present invention provides a method for inhibiting a RuO.sub.4 gas generated from a ruthenium-containing liquid in the production process of a semiconductor element. The present invention provides a method for inhibiting a Ru.sub.4 gas generated from a ruthenium-containing liquid by adding an inhibitor for inhibiting the generation of a RuO.sub.4 gas, to a ruthenium-containing liquid. The present invention also provides an inhibitor for inhibiting the generation of a RuO.sub.4 gas, including at least one of a reducing agent and a basic compound.

A treatment liquid contains orthoperiodic acid and water, and the pH is 11 or more. It is preferable that the content of orthoperiodic acid in the treatment liquid is 0.01% to 5% by mass with respect to the total mass of the treatment liquid.

A treatment liquid contains orthoperiodic acid and water, and the pH is 11 or more. It is preferable that the content of orthoperiodic acid in the treatment liquid is 0.01% to 5% by mass with respect to the total mass of the treatment liquid.

The disclosure relates to a method for manufacturing a transfer film including an electrode layer, the method comprising: an electrode layer formation step of forming an electrode layer on a carrier member by using a conductive material; a placement step of placing the carrier member on at least one side of an insulating resin layer respectively; a bonding step of bonding the carrier member and the insulating resin layer together by applying pressure thereto; and a transfer step of removing the carrier member to transfer the electrode layer on the insulating resin layer.

An object is to provide a ruthenium removal composition capable of dissolving Ru while suppressing dissolution of CoFeB, and a method of producing a magnetoresistive random access memory (MRAM) using the same. A ruthenium removal composition of the present invention contains orthoperiodic acid and water, and the pH is 11 or more. It is preferable that the content of orthoperiodic acid in the ruthenium removal composition is 0.01% to 5% by mass with respect to the total mass of the composition.

Provided is a treatment liquid for a semiconductor with ruthenium, containing a hypobromite ion. Also provided is a treatment liquid for a semiconductor with ruthenium, containing at least a bromine-containing compound, an oxidizing agent, a basic compound, and water which are added and mixed, wherein the liquid has the bromine-containing compound added in an amount of 0.01 mass % or more and less than 2 mass % as a bromine element content with respect to the total mass of the liquid, has the oxidizing agent added in an amount of 0.1 mass % or more and 10 mass % or less with respect to the total mass, and has a pH of 8 or more and 14 or less. Further provided is a method of producing a treatment liquid for a semiconductor with ruthenium, including a step of mixing a bromine-containing compound with a solution containing a hypochlorous acid compound and a basic compound.

Provided is a treatment liquid for a semiconductor with ruthenium, containing a hypobromite ion. Also provided is a treatment liquid for a semiconductor with ruthenium, containing at least a bromine-containing compound, an oxidizing agent, a basic compound, and water which are added and mixed, wherein the liquid has the bromine-containing compound added in an amount of 0.01 mass % or more and less than 2 mass % as a bromine element content with respect to the total mass of the liquid, has the oxidizing agent added in an amount of 0.1 mass % or more and 10 mass % or less with respect to the total mass, and has a pH of 8 or more and 14 or less. Further provided is a method of producing a treatment liquid for a semiconductor with ruthenium, including a step of mixing a bromine-containing compound with a solution containing a hypochlorous acid compound and a basic compound.

A method for producing a semiconductor element and a chemical solution to be used in the method for producing a semiconductor element, the method including dry-etching or chemically-mechanically polishing a ruthenium-containing layer located as an uppermost layer of a substrate; and bringing a surface of the substrate into contact with a chemical solution thereby satisfactorily cleaning and removing a ruthenium residue formed on the surface of the substrate; and a chemical solution to be suitably used in the method for producing a semiconductor element.

The invention provides compositions useful for selectively etching ruthenium and/or copper. The compositions comprise certain periodate compounds, alkylammonium or alkylphosphonium hydroxides, carbonate or bicarbonate buffers, and water, wherein the pH of the composition is about 9 to about 12.5. The compositions of the invention are effectively utilized in the method of the invention and have been found to be capable of etching Cu and Ru at similar rates, i.e., >20 Å/min, while minimizing etch rates of dielectrics (<2 Å/min).

The invention provides compositions useful for selectively etching ruthenium and/or copper. The compositions comprise certain periodate compounds, alkylammonium or alkylphosphonium hydroxides, carbonate or bicarbonate buffers, and water, wherein the pH of the composition is about 9 to about 12.5. The compositions of the invention are effectively utilized in the method of the invention and have been found to be capable of etching Cu and Ru at similar rates, i.e., >20 Å/min, while minimizing etch rates of dielectrics (<2 Å/min).