An object of the invention is to provide a cleaning liquid for semiconductor substrates having undergone CMP, the cleaning liquid being excellent in cleaning performance and corrosion prevention performance with respect to copper-containing and cobalt-containing metal films. Another object of the invention is to provide a method of cleaning semiconductor substrates having undergone CMP. A cleaning liquid of the invention is for semiconductor substrates having undergone CMP and includes: a component A that is an amino acid having one carboxyl group; a component B that is at least one selected from the group consisting of an aminopolycarboxylic acid and a polyphosphonic acid; and a component C that is an aliphatic amine (provided that the component A, the aminopolycarboxilic acid and a quaternary ammonium compound are excluded). The mass ratio of the component B content to the component A content is 0.2 to 10, and the mass ratio of the component C content to the sum of the component A content and the component B content is 5 to 100.

There is provided a cleaning liquid for a semiconductor substrate, which has excellent cleaning performance with respect to a semiconductor substrate including a metal film after CMP and has a small surface roughness of a metal film after cleaning. The cleaning liquid for a semiconductor substrate according to the present invention is a cleaning liquid for a semiconductor substrate, which is used for cleaning a semiconductor substrate, including a compound represented by Formula (1), a compound represented by Formula (2), a primary amino alcohol having a primary amino group or a secondary amino group, a tertiary amine; and a solvent.

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A method for selective etching Si in the presence of silicon nitride and an etching composition with high Si/Si3N4 etching selectivity are disclosed. Particularly, the method for selective etching Si in the presence of silicon nitride is to apply the etching composition with high Si/Si3N4 etching selectivity in the etching process, and the etching composition with high Si/Si3N4 etching selectivity comprises about 0.5 wt. % to about 10 wt. % of at least one quaternary ammonium compound, about 5 wt. % to about 55 wt. % of at least one primary amine, about 15 wt. % to about 80 wt. % of at least one polyol, and about 10 wt. % to about 35 wt. % water based on total weight of the etching composition.

A cleaning liquid for cleaning a substrate having a first metal atom-containing layer that contains ruthenium and a second metal atom-containing layer that contains a metal atom other than ruthenium, both of the layers contacting each other, and at least one of the first metal atom-containing layer and the second metal atom-containing layer is exposed on a surface. The cleaning liquid includes at least one of a compound represented by General Formula (a1), a hydrate of the compound, and a salt of the compound, and at least one amine other than the hydrazine compound and a quaternary hydroxide. In General Formula (a1), R.sup.1 and R.sup.2 represent an organic group including no carbonyl group or a hydrogen atom

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A cleaning liquid for cleaning a substrate in which at least one of molybdenum and tungsten is exposed on a surface, in which the cleaning liquid includes at least one of a compound represented by General Formula (a1), a hydrate of the compound, and a salt of the compound, a water-soluble basic compound with a pH of 9.5 or more in a 0.1 M aqueous solution, which is measured at 23° C. with a pH meter, and water. In General Formula (a1), R.sup.1 and R.sup.2 each independently represents an organic group including no carbonyl group or a hydrogen atom

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To clean components in semiconductor manufacturing equipment, such as an optical system or an electron beam system, a component is heated in a chamber. A supercritical fluid formulation is applied to the component in the chamber, which removes molecular and/or particulate contaminants. The supercritical fluid formulation can include one or more of carbon dioxide, water, HCF, alkane, alkene, nitrous oxide, methanol, ethanol, or acetone.

The invention provides a composition for cleaning contaminants from semiconductor wafers following chemical-mechanical polishing. The cleaning composition contains one or more quaternary ammonium hydroxides, one or more organic amines, one or more metal inhibitors, and water. The invention also provides methods for using the cleaning composition.

The present invention relates to a cleaner composition. Specifically, the present invention relates to a cleaner composition that can be used to remove metal oxides and metal abrasive particles arising during metal polishing, such as chemical mechanical planarization (CMP). The cleaner composition has an improved ability to complex with metal abrasive particles. In addition, the cleaner composition maintains its ability to reduce metal abrasive particles, achieving improved stability. Therefore, the cleaner composition can be used for cleaning the surface of a metal with an increased ability to prevent corrosion of the metal surface.

A composition is provided for the treatment of scaling and deposits due to naturally occurring radioactive material, said composition comprising one or more extractants that preferentially attract radioactive isotopes over other forms of alkaline earth cations A composition is further provided wherein said composition forms a polydentate ligand with one or more metals to act as carriers for radioactive elements. The composition comprises components that enhance stabilization of coordination complexation of the radioactive isotopes in the formation of polydentate ligands.

The present invention comprises chlorinated and non-chlorinated alkaline cleaning compositions for removal of proteinaceous and fatty soils at low temperature, i.e. less than 120° F., with little or no deleterious affect on cleaning performance. According to the invention, applicants have found that adding additional alkalinity makes protein removal more difficult and reducing the amount of alkalinity actually improves performance. According to the invention optimized combinations of chlorine and alkalinity components for low temperature cleaning as well as a surfactant system optimized for low temperature fatty soil removal are disclosed.