Abstract: A composition and method comprising same for selectively removing residues such as, for example, ashed photoresist and/or processing residues are disclosed herein. In one aspect, there is provided a composition for removing residue wherein the composition has a pH ranging from about 2 to about 9 comprising: a buffer solution comprising an organic acid and a conjugate base of the organic acid in a molar ratio of acid to base ranging from 10:1 to 1:10; a fluoride, and water, provided that the composition is substantially free of an added organic solvent. In another aspect, the composition may further comprise a corrosion inhibitor and/or a surfactant.

Abstract: The invention provides a cleaning liquid for semiconductor devices which is capable of removing deposits on a surface of an object to be cleaned including a photoresist, an antireflective film, an etching residue and an ashing residue at a low temperature in a short period of time with reduced environmental burdens and without causing corrosion of an interlayer dielectric film, a metal, a metal nitride, and an alloy in the object to be cleaned. The cleaning liquid for semiconductor devices according to the invention contains a reducing agent and a surfactant and has a pH of 10 to 14.

Abstract: The present invention relates to semi-aqueous formulations and the method using same, to remove bulk photoresists, post-etched and post-ashed residues, as well as contaminations. The formulation comprises: an alkanolamine, a water miscible organic co-solvent, a quarternary ammonium compound, a non-free acid functionality corrosion inhibitor, and remainder water. The pH is greater than 9.

Abstract: Cleaning water for an electronic material which exhibits a remarkably improved cleaning effect in comparison with conventional waters containing dissolved gas is provided. The cleaning water for an electronic material comprises water containing dissolved gas containing oxygen and argon as dissolved gases, and has a concentration of dissolved oxygen being equal to or more than 8 mg/L, and a content of dissolved argon gas being equal to or more than 2 volume % of the total amount of dissolved oxygen gas and dissolved argon gas. A method for cleaning an electronic material with the cleaning water for an electronic material. The cleaning water for an electronic material of the present invention, which comprises water containing dissolved oxygen/argon gas, contains a smaller amount of dissolved gas, can obtain an improved cleaning effect even when a small amount of a chemical is used, and therefore, can be produced safely and easily at a low cost.

Abstract: Disclosed is a cleaning liquid for lithography which is characterized by containing a mixed organic solvent which is obtained by mixing (A) at least one solvent selected from ketone organic solvents and glycol ether organic solvents, (B) at least one solvent selected from lactone organic solvents and (C) at least one solvent selected from alkoxy benzenes and aromatic alcohols. This cleaning liquid is highly safe and does not have adverse effects on the environment or the human body, while having basic characteristics necessary for a cleaning liquid for lithography. In addition, this cleaning liquid can be stably supplied at low cost.

Abstract: An aqueous-based composition and method comprising same for removing residues such as without limitation post-ashed and/or post-etched photoresist from a substrate is described herein. In one aspect, there is provided a composition for removing residues comprising: water; at least one selected from a hydroxylamine, a hydroxylamine salt compound, and mixtures thereof; and a corrosion inhibitor wherein the composition is substantially free of an added organic solvent and provided that the corrosion inhibitor does not contain a water soluble organic acid.

Abstract: A stripping agent composition for a resist, containing (A) 0.1 to 10% by weight of an amine; (B) 80 to 99% by weight of an organic solvent having a Hansen's solubility parameter of from 18 to 33 MPa1/2; (C) 0.01 to 3% by weight of a sugar; and (D) 0 to 5% by weight of water; a method for stripping a resist, including the step of stripping the resist with the stripping agent composition; and a method for manufacturing a semiconductor device, including the step of stripping a resist with the stripping agent composition. By using the stripping composition of the present invention, for example, a high-quality IC or LSI semiconductor device circuit, especially a compound semiconductor device circuit can be more economically advantageously manufactured.

Abstract: An object of the present invention is to provide a semiconductor surface treating agent composition, which can realize easy removing of an anti-reflection coating layer in a production process of a semiconductor device or the like at a low temperature in a short time, a method for treating a semiconductor surface using the same, and further a semiconductor surface treating agent composition, which can realize not only removing of both layer of an anti-reflection coating layer and a resist layer, but can realize even removing of a cured resist layer produced in an etching process, and a method for treating a semiconductor surface using the same. The semiconductor surface treating agent composition of the present invention is characterized by comprising a compound which generates a fluorine ion in water, a carbon radical generating agent, and water and optionally an organic solvent, and the method for treating a semiconductor surface of the present invention is characterized by using the composition.

Abstract: The invention relates to aqueous, buffered, fluoride containing compositions having a pH of greater than 7.0 to about 11.0. In certain embodiments, the buffered compositions have an extended worklife because pH dependent attributes such as oxide and metal etch rates are stable so long as the pH remains stable.

Abstract: An apparatus for processing substrate includes a spin chuck, a first nozzle and a second nozzle. The spin chuck fixes and spins the substrate on which a photoresist layer is formed. The first nozzle is disposed over the spin chuck and provides a treatment liquid on the substrate so as to remove the photoresist layer. The second nozzle is disposed over the spin chuck and provides a mist including deionized water or hydrogen peroxide on the substrate to make contact with the treatment liquid so as to increase a temperature of the treatment liquid. Therefore, efficiency of removing the photoresist layer may be improved.

Abstract: Provided is a composition for removing polymer residue of a photosensitive etching-resistant layer. The composition includes 0.1 to 80% by weight of a corrosion inhibitor shown in Formula 1; 10 to 80% by weight of a pH control agent of which hydrogen ion concentration is in a weak basic range; 0.1 to 2% by weight of ammonium fluoride; and the remaining percentage by weight of water. The composition for removing the polymer residue can effectively remove insoluble residue generated during a semiconductor fabrication process without inflicting damage on an underlying layer and contains environment-friendly components.

Abstract: Resist stripping agents, useful for fabricating circuits and/or forming electrodes on semiconductor devices for semiconductor integrated circuits with reduced metal etch rates, particularly copper etch rates, are provided with methods for their use. The preferred stripping agents contain low concentrations of a copper salt with or without an added amine to improve solubility of the salt. Further provided are integrated circuit devices and electronic interconnect structures prepared according to these methods.

Abstract: Process solutions comprising one or more surfactants are used to reduce the number of defects in the manufacture of semiconductor devices. In certain preferred embodiments, the process solution of the present invention may reduce post-development defects such as pattern collapse when employed as a rinse solution either during or after the development of the patterned photoresist layer. Also disclosed is a method for reducing the number of pattern collapse defects on a plurality of photoresist coated substrates employing the process solution of the present invention.

Abstract: It is disclosed a cleaning liquid for stripping and dissolving a photoresist pattern having a film thickness of 10-150 ?m, which contains (a) 0.5-15 mass % of a quaternary ammonium hydroxide, such as tetrapropylammonium hydroxide and tetrabutylammonium hydroxide, (b) 65-97 mass % of a water-soluble organic solvent, such as dimethylsulfoxide or a mixed solvent thereof with N-methyl-2-pyrrolidone, sulforane, etc., and (c) 0.5-30 mass % of water, and a method for treating a substrate therewith.

Abstract: The invention relates to processes for producing and using amidoxime compounds with low trace metal impurities. The invention further relates to compositions comprising amidoxime compounds with low trace metal impurities, such compositions useful for cleaning or removing residues from semiconductor substrates and/or equipment.

Abstract: The present invention provides a resist-removing solution for low-k film and a cleaning solution for via holes or capacitors, the solutions comprising hydrogen fluoride (HF) and at least one member selected from the group consisting of organic acids and organic solvents. The invention also provides a method of removing resist and a method of cleaning via holes or capacitors by the use of the solutions.

Abstract: An improved method for making a photoresist stripping solution for a metal-containing semi-conductor substrate where the stripping solution comprises a blend of at least one organic sulfonic acid with a halogen-free hydrocarbon solvent wherein concentrations of trace amounts of residual sulfuric acid and sulfur trioxide in the blend are reduced to very low levels.

Abstract: The invention relates to compositions and methods for cleaning integrated circuit substrates. The compositions are in the form of an aqueous solution and include a quaternary ammonium hydroxide compound and a chelating compound. The chelating compound includes either boric acid or at least one N-substituted aminocarboxylate selected from the group consisting of N-bis(2-hydroxyethyl)glycine(bicine), N-tris(hydroxymethyl)methyl glycine (tricine) and mixtures thereof, and can optionally include glycine, Iminodiacetic acid (IDA), Nitrilo trizacetic acid (NTA), Ethylenediammine Tetraacetic acid (EDTA), or mixtures thereof.

Abstract: Back end photoresist strippers and residue compositions are provided by non-aqueous compositions that are essentially non-corrosive toward copper as well as aluminum and that comprise a polar organic solvent, a hydroxylated amine, and as a corrosion inhibitor fructose.

Abstract: A photoresist residue remover composition is provided that removes a photoresist residue formed by a resist ashing treatment after dry etching in a step of forming, on a substrate surface, wiring of any metal of aluminum, copper, tungsten, and an alloy having any of these metals as a main component, the composition including one or two or more types of inorganic acid and one or two or more types of inorganic fluorine compound. There is also provided a process for producing a semiconductor circuit element wherein, in a step of forming wiring of any metal of aluminum, copper, tungsten, and an alloy having any of these metals as a main component, the photoresist residue remover composition is used for removing a photoresist residue formed by a resist ashing treatment after dry etching.

Abstract: The present invention provides a composition for photoresist stripping solution which shows a superior stripping property of photoresists and damaged photoresist layers remained after dry etching in the fabrication process of semiconductor circuit devices, without attacking new wiring materials and interlayer insulating film materials, as well as a process of stripping of photoresists and damaged photoresist layers. The composition for photoresist stripping solution which contains at least one of acetylene alcohol compounds and organic sulfonic acid compounds, and at least one of polyvalent alcohols and their derivatives is used.

Abstract: An alkali-type nonionic surfactant composition contains a nonionic surfactant (component A), water (component B), at least one compound (component C) selected from the group consisting of benzenesulfonic acid, toluenesulfonic acid, dimethylbenzenesulfonic acid, hydroxybenzenesulfonic acid and salts thereof, and at least one alkaline chemical (component D) selected from the group consisting of potassium hydroxide and sodium hydroxide. The alkali-type nonionic surfactant composition contains the nonionic surfactant (component A) in an amount of 0.5 to 20 wt % and has a pH at 25° C. of 12 or greater.

Abstract: The invention relates to aqueous, buffered, fluoride containing compositions having a pH of greater than 7.0 to about 11.0. In certain embodiments, the buffered compositions have an extended worklife because pH dependent attributes such as oxide and metal etch rates are stable so long as the pH remains stable.

Abstract: Compositions and methods useful for the removal of organic substances from substrates, for example, electronic device substrates such as microelectronic wafers or flat panel displays, are provided. A method is presented which applies a minimum volume of the composition as a coating to the inorganic substrate whereby sufficient heat is added and immediately rinsed with water to achieve complete removal. These compositions and methods are particularly suitable for removing and completely dissolving photoresists of the positive and negative varieties as well as thermoset polymers from electronic devices.

Abstract: Provided are a cleaning liquid for lithography capable of suppressing occurrence of CD shift without inhibiting the effect of preventing pattern collapse by a surfactant, and a pattern formation method using the cleaning liquid for lithography. A cleaning liquid for lithography containing (A) an anionic surfactant, (B) an amine compound, and (C) water. In the cleaning liquid for lithography of the present invention, the anionic surfactant and the amine compound form a salt in the cleaning liquid for lithography, and thus penetration of the anionic surfactant into a resist film can be suppressed. Therefore, even when a method for forming a resist pattern is performed, the resist film is not dissolved by using the cleaning liquid for lithography of the present invention, whereby occurrence of CD shift can be efficiently suppressed.

Abstract: Compositions and methods useful for the removal of organic substances from substrates, for example, electronic device substrates such as microelectronic wafers or flat panel displays, are provided. A method is presented which applies a minimum volume of the composition as a coating to the inorganic substrate whereby sufficient heat is added and immediately rinsed with water to achieve complete removal. These compositions and methods are particularly suitable for removing and completely dissolving photoresists of the positive and negative varieties as well as thermoset polymers from electronic devices.

Abstract: This invention provides a novel cleaning liquid for lithography that, for a photoresist pattern, is used for reducing a surface defect, that is, defect, of a product, preventing pattern collapse during water rinsing, and further imparting electron beam irradiation resistance to a resist to suppress pattern shrinkage. Further, in the novel cleaning liquid for lithography, bacteria contamination does not occur during storage. The cleaning liquid for lithography comprises an aqueous solution containing an amine oxide compound represented by general formula wherein R1 represents an alkyl or hydroxyalkyl group having 8 to 20 carbon atoms which may be interrupted by an oxygen atom; and R2 and R3 represent an alkyl or hydroxyalkyl group having 1 to 5 carbon atoms.

Abstract: Back end of line (BEOL) stripping solutions which can be used in a stripping process that replaces etching resist ashing process are provided. The stripping solutions are useful for fabricating circuits and/or forming electrodes on semiconductor devices for semiconductor integrated circuits with good efficiency and with low and acceptable metal etch rates. Methods for their use are similarly provided. The preferred stripping agents contain a polar aprotic solvent, water, an amine and a quaternary hydroxide that is not tetramethylammonium hydroxide. Further provided are integrated circuit devices and electronic interconnect structures prepared according to these methods.

Abstract: Compositions useful for removing a polymer material from a substrate, such as an electronic device, and methods of using such compositions are provided. These compositions and methods reduce the corrosion of any underlying metal surfaces, and are particularly suited to remove polymer residues from electronic device substrates.

Abstract: A photoresist stripping solution comprising (a) a specified quaternary ammonium hydroxide, such as tetrabutylammonium hydroxide, tetrapropylammonium hydroxide, methyltributylammonium hydroxide or methyltripropylammonium hydroxide, (b) a water-soluble amine, (c) water, (d) a corrosion inhibitor and (e) a water-soluble organic solvent, the compounding ratio of component (a) to component (b) being in the range of from 1:3 to 1:10 by mass, as well as a method of stripping photoresists using the solution. The stripping solution of the invention assures effective protection of Al, Cu and other wiring metal conductors against corroding as well as efficient stripping of the photoresist film, post-ashing residues such as modified photoresist film and metal depositions. It also assures efficient stripping of Si-based residues and effective protection of the substrate (particularly the reverse side of a Si substrate) from corroding.

Abstract: Embodiments of the present invention describe a removal chemistry for removing hard mask. The removal chemistry is a wet-etch solution that removes a metal hard mask formed on a dielectric layer, and is highly selective to a metal conductor layer underneath the dielectric layer. The removal chemistry comprises an aqueous solution of hydrogen peroxide (H2O2), a hydroxide source, and a corrosion inhibitor. The hydrogen peroxide and hydroxide source have the capability to remove the hard mask while the corrosion inhibitor prevents the metal conductor layer from chemically reacting with the hydrogen peroxide and hydroxide source during the hard mask removal.

Abstract: The object of the present invention is to provide a stripping agent that not only has excellent stripping properties but also does not adversely affect a conductive polymer when a resist film is stripped from the conductive polymer, and a method for stripping a resist film on/above a conductive polymer. Furthermore, the object is to provide a substrate having a patterned conductive polymer that has good conductivity. The stripping agent for a resist film on/above a conductive polymer of the present invention includes at least one organic solvent selected from the group consisting of an aprotic organic solvent (a) that is selected from the group consisting of a dialkylsulfone, a dialkyl sulfoxide, an alkylene carbonate, and an alkyrolactone and does not have a nitrogen atom and an organic solvent (b) that has a nitrogen atom in the chemical structure and is one other than a primary amine compound, a secondary amine compound, and an organic quaternary ammonium salt.

Abstract: Embodiments of the current invention describe a cleaning solution for the removal of high dose implanted photoresist, along with methods of applying the cleaning solution to remove the high dose implanted photoresist and combinatorially developing the cleaning solution.

Abstract: A composition for a photoresist stripper and a method of fabricating a thin film transistor array substrate are provided according to one or more embodiments. In one or more embodiments, the composition includes about 5-30 weight % of a chain amine compound, about 0.5-10 weight % of a cyclic amine compound, about 10-80 weight % of a glycol ether compound, about 5-30 weight % of distilled water, and about 0.1-5 weight % of a corrosion inhibitor.

Abstract: Resist stripping agents, useful for fabricating circuits and/or forming electrodes on semiconductor devices for semiconductor integrated circuits with reduced metal etch rates, particularly copper etch rates, are provided with methods for their use. The preferred stripping agents contain low concentrations of a copper salt with or without an added amine to improve solubility of the salt. Further provided are integrated circuit devices and electronic interconnect structures prepared according to these methods.

Abstract: A variety of compositions that are particularly applicable for removing one or more of resist, etching residue, planarization residue, and copper oxide from a substrate comprising copper and a low-k dielectric material are described. The resist, residues, and copper oxide are removed by contacting the substrate surface with the composition, typically for a period of 30 seconds to 30 minutes, and at a temperature between 25° and 45° C. The composition includes a fluoride-providing component; at least 1% by weight of a water miscible organic solvent; an organic acid; and at least 81% by weight water. Typically the composition further includes up to about 0.4% of one or more chelators.

Abstract: Ammonia-free, HF-free cleaning compositions for cleaning photoresist and plasma ash residues from microelectronic substrates, and particularly to such cleaning compositions useful with and having improved compatibility with microelectronic substrates characterized by sensitive porous and low-? to high-? dielectrics and copper metallization. The cleaning composition contain one or more non-ammonium producing, non-HF producing fluoride salt (non ammonium, quaternary ammonium fluoride salt) in a suitable solvent matrix.

Abstract: A photoresist stripping solution comprising (a) a carboxyl group-containing acidic compound, (b) at least one basic compound (for example, monoethanolamine, tetraalkylammonium) selected from among alkanolamines and specific quaternary ammonium hydroxides, (c) a sulfur-containing corrosion inhibitor and (d) water, and having a pH value of 3.5-5.5; and a method of stripping photoresists using the same are disclosed. The present invention provides a photoresist stripping solution which is excellent in the effect of protecting metal wirings (in particular, Cu wirings) from corrosion, never damages interlevel films, such as low dielectric layers or organic SOG layers, and shows excellent strippability of photoresist films and post-ashing residues.

Abstract: The invention relates to processes for producing and using amidoxime compounds with low trace metal impurities. The invention further relates to compositions comprising amidoxime compounds with low trace metal impurities, such compositions useful for cleaning or removing residues from semiconductor substrates and/or equipment.

Abstract: The present invention is a novel aqueous cleaning solution for use in semiconductor front end of the line (FEOL) manufacturing process wherein the cleaning solution comprises at least one amidoxime compound.

Abstract: Improved dry stripper solutions for removing one, two or more photoresist layers from substrates are provided. The stripper solutions comprise dimethyl sulfoxide, a quaternary ammonium hydroxide, and an alkanolamine, an optional secondary solvent and less than about 3 wt. % water and/or a dryness coefficient of at least about 1. Methods for the preparation and use of the improved dry stripping solutions are additionally provided. Advantageous solution methods are provided for the use of the novel stripper solutions to prepare an electronic interconnect structure by removing a plurality of resist layers to expose an underlying dielectric and related substrate without imparting damage to any of the underlying structure.

Abstract: There is provided a cleaning agent comprising a lactone represented by the following formula (1): wherein R1 is an alkylene group having 3 to 6 carbon atoms. The cleaning agent is useful for cleaning an organic electroluminescence material, photosensitive resin, liquid crystal or wax.

Abstract: The present invention relates to an aqueous cleaning composition used to remove unwanted organic and inorganic residues and contaminants from a substrate such as, for example, a semiconductor substrate. The cleaning composition comprises from about 0.01% to about 40% by weight of a salt selected from a guanidinium salt, an acetamidinium salt, a formamidinium salt, and mixtures thereof; water; and optionally a water soluble organic solvent. Compositions according to the present invention are free of an oxidizer and abrasive particles and are capable of removing residues from a substrate and, particularly, a substrate having silicon-containing BARC and/or photoresist residue.

Abstract: A composition for removing a photoresist includes about 5 to about 20 percent by weight of an alcoholamide compound, about 15 to about 60 percent by weight of a polar aprotic solvent, about 0.1 to about 6 percent by weight of an additive, and pure water. The alcoholamide compound is chemically structured as follows: where R1 is a hydroxyl group or a hydroxyalkyl group, and R2 is a hydrogen atom or a hydroxyalkyl group.

Abstract: A composition and method comprising same for selectively removing residues such as, for example, ashed photoresist and/or processing residues are disclosed herein. In one aspect, there is provided a composition for removing residue wherein the composition has a pH ranging from about 2 to about 9 comprising: a buffer solution comprising an organic acid and a conjugate base of the organic acid in a molar ratio of acid to base ranging from 10:1 to 1:10; a fluoride, and water, provided that the composition is substantially free of an added organic solvent. In another aspect, the composition may further comprise a corrosion inhibitor.

Abstract: Disclosed are a composition for removing photoresist, a method of removing photoresist and a method of manufacturing a semiconductor device using a composition. The composition may include a ketone compound and a first polar aprotic solvent. The composition may also include the ketone compound and a second polar aprotic solvent. Moreover, the composition may include the first polar aprotic solvent and a second polar aprotic solvent with or without the ketone compound. The first polar aprotic solvent has at least one of an ether compound and an ester compound, and the second polar aprotic solvent has at least one of a sulfur-containing compound and a nitrogen-containing compound.

Abstract: Disclosed are a treating liquid for photoresist removal, containing (a) an oxidizing agent (e.g., aqueous hydrogen peroxide), (b) at least one selected from alkylene carbonates and their derivatives (e.g., propylene carbonate), and (c) water; and a method for treating with the treating liquid a substrate having a photoresist film deteriorated after dry-etching treatment thereof or a substrate optionally subjected to plasma-ashing treatment after the dry-etching treatment, and then treating it with a photoresist-stripping liquid for stripping off the photoresist.

Abstract: Compositions useful in reworking microelectronic device wafers, i.e., removing photoresist from rejected wafers, without damaging underlying layers and structures such as cap layers, interlevel dielectric layers, etch stop layers and metal interconnect material. The semi-aqueous compositions include at least one alkali and/or alkaline earth metal basic salt, at least one organic solvent, water, optionally at least one quaternary ammonium basic salt, optionally at least one metal corrosion inhibitor and optionally at least one water-soluble polymer surfactant.

Abstract: A composition for removing a copper-compatible resist includes: about 0.1% to about 10% by weight of an alkylbenzenesulfonic compound; about 10% to about 99% by weight of a glycolether compound; and about 0.5% to about 5% by weight of a corrosion inhibitor.

Abstract: Compositions containing certain organic solvents and a fluorine source are capable of removing photoresist and etching residue.