This invention relates to a photoresist stripper composition. The photoresist stripper composition according to the present invention comprises at least one choline compound; at least one polar aprotic solvent; and water; the weight percentage of the choline compound is from 2.5 to 50%, preferably from 5 to 50%, more preferably from 7 to 30%, and most preferably from 9 to 18% by weight based on the total weight of the composition. The photoresist stripper composition according to the present invention exhibits excellent photoresist cleaning performance and low etching to the substrate.

The present disclosure relates to a process solution composition for EUV photolithography and a pattern forming method using same. The process solution composition includes 0.00001% to 0.01% by weight of a fluorine-based surfactant, 0.00001% to less than 0.01% by weight of a pattern reinforcing agent represented by Formula (1), and 0.00001% to 0.001% by weight of a material selected from the group consisting of triol derivatives, tetraol derivatives, and mixture thereof, and the balance being water.

Pre-texturing agents, etchants, and photoresist stripping agents may be formulated to include one or more branched surfactants, from one or more surfactant classes, such as derivatives of amino acids that have surface-active properties.

A treatment liquid is a treatment liquid for a semiconductor device, containing a fluorine-containing compound, a corrosion inhibitor, and calcium, in which the mass content ratio of the calcium to the fluorine-containing compound in the treatment liquid is 1.0×10.sup.−10 to 1.0×10.sup.−4.

Stripping solutions that may replace an etching resist ashing process are provided. The stripping solutions are useful for fabricating circuits and/or forming electrodes and/or packaging/bumping applications on semiconductor devices for semiconductor integrated circuits with good photoresist removal efficiency and with low silicon oxide etch rate and low metal etch rates. Methods for their use are similarly provided. The preferred stripping agents contain polar aprotic solvent, water, hydroxylamine, corrosion inhibitor, quaternary ammonium hydroxide and optional surfactant. Further provided are integrated circuit devices and electronic interconnect structures prepared according to these methods.

A method for removing a resist layer including the following steps is provided. A patterned resist layer on a material layer is formed. A stripping solution is applied to the patterned resist layer to dissolve the patterned resist layer without dissolving the material layer, wherein the stripping solution comprises a non-dimethyl sulfoxide solvent and an alkaline compound, the non-dimethyl sulfoxide solvent comprises an aprotic solvent and a protic solvent.

A method for removing a resist layer including the following steps is provided. A patterned resist layer on a material layer is formed. A stripping solution is applied to the patterned resist layer to dissolve the patterned resist layer without dissolving the material layer, wherein the stripping solution comprises a non-dimethyl sulfoxide solvent and an alkaline compound, the non-dimethyl sulfoxide solvent comprises an aprotic solvent and a protic solvent.

A treatment liquid for a semiconductor device includes an alkanolamine; a hydroxylamine; an organic solvent; Ca; Fe; and Na, wherein the content of the alkanolamine in the treatment liquid is 0.1% to 5% by mass, the content of the hydroxylamine in the treatment liquid is 0.1% to 30% by mass, and each of the mass ratio of Ca, Fe, and Na with respect to the content of the alkanolamine and the hydroxylamine in the treatment liquid is 10.sup.−12 to 10.sup.−4.

A cleaning composition which can remove a layer of interest using a conventional apparatus, such as a coater, a baking furnace and a cleaning chamber, installed in semiconductor manufacturing equipment while preventing the damage or deformation of layers other than the layer of interest, such as a substrate and an interlayer insulation film; a cleaning method using the cleaning composition; and a method for producing a semiconductor employing the cleaning method. A layer of interest formed on a substrate is cleaned with a cleaning composition containing a component capable of decomposing the layer of interest and a film-forming polymer. An example of the layer of interest is a hard mask film. An example of the component is at least one of a basic compound and an acidic compound.

The present invention relates to a composition including a sulfonic acid selected from the group consisting of an alkyl-benzenesulfonic acid having structure (I), or its hydrate (wherein n is an integer from 6 to 16), a sulfosalicylic acid having structure (II), or its hydrate, and mixtures thereof and the solvent dipropylene glycol dimethyl ether [CAS registry number 111109-77-4] (III);

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