Abstract: The present invention provides a method for reducing or eliminating a poor pattern formation on a photoresist film by contacting the photoresist film with an alkaline solution prior to its exposure to light. Methods of the present invention significantly reduce or prevent T-topping and top-loss.

Abstract: The present invention relates to a photoresist composition containing a photo radical generator, more specifically, to a photoresist composition which comprises (a) photoresist resin, (b) a photoacid generator, (c) an organic solvent and (d) a photo radical generator. The present photoresist composition reduces or prevents a sloping pattern formation due to a higher concentration of acid in the upper portion of the photoresist relative to the lower portion of the photoresist.

Abstract: Photoresist monomers of following Formulas 1 and 2, photoresist polymers thereof, and photoresist compositions containing the same. The photoresist composition has excellent adhesiveness to a wafer, and is developable in aqueous tetramethylammonium hydroxide (TMAH) solution. In addition, the photoresist composition has low absorbance of light having the wavelength of 157 nm, and thus is suitable for a photolithography process using ultraviolet light sources such as VUV (157 nm) and EUV (13 nm) in fabricating a minute circuit for a high integration semiconductor device. wherein, R1, R2 and R3 are as defined in the specification of the invention.

Abstract: The present disclosure relates to an organic anti-reflective coating composition and a method for forming photoresist patterns using the same. The anti-reflective coating compositions are useful for preventing reflection of a lower film layer or a substrate of a photoresist film, reducing standing waves caused by light and variations in the thickness of the photoresist itself, and increasing the uniformity of the photoresist patterns. More particularly, the present invention relates to an organic anti-reflective coating composition comprising particular organo-silicon based polymers and a method for forming photoresist patterns using the same. The organic anti-reflective coating composition can prevent excessive absorbency of an anti-reflective film formed therefrom and, thus, minimize the reflectivity of the film so that it can efficiently remove standing waves and increase the uniformity of the photoresist pattern.

Abstract: A method for forming patterns of a semiconductor device is disclosed which inhibits collapse of photoresist patterns in photoresist pattern-forming processes of the semiconductor device by forming micro-bends in an anti-reflective film to increase the contact area between a photoresist and the anti-reflective film and, simultaneously prevents critical dimension (CD) alteration of the photoresist pattern by creating micro-bends and double-laminating of anti-reflective films with different refractive indices and light-absorbencies.

Abstract: An organic anti-reflective coating composition and a method for forming photoresist patterns using the same are disclosed which can prevent reflection of the lower film layer or substrate and reduce standing waves caused by light and variation of in the thickness of the photoresist itself, thereby, increasing uniformity of the photoresist pattern, with respect to a microfine pattern-forming process using photoresists for a photolithography by using ArF with 193 nm wavelength among processes for manufacturing semiconductor device. More particularly, an organic anti-reflective coating composition and a method for forming photoresist patterns using the same are disclosed which can obtain perpendicular photoresist patterns and thus inhibit breakdown and/or collapse of the patterns by comprising an acid-diffusion inhibitor.

Abstract: A process for producing a photoresist pattern is disclosed. In particular, the disclosed process for forming a photoresist pattern reduces or prevents poor quality photoresist patterns formation, especially when a high light absorbing (i.e., low transmittance) photoresist resin is used. In one aspect, a photoresist film which has been exposed to light is treated with a gas phase basic compound to produce a substantially vertical photoresist pattern.

Abstract: Photoresist monomers, photoresist polymers prepared therefrom, and photoresist compositions using the polymers are disclosed. More specifically, photoresist polymers comprising a photoresist monomer containing fluorine-substituted benzylcarboxylate represented by Formula 1, and a composition comprising the polymer are disclosed. The photoresist composition has excellent etching resistance, heat resistance and adhesiveness, and can be developed in aqueous tetramethylammonium hydroxide (TMAH) solution. And, the present photoresist composition is suitable to form a fine pattern using deep ultraviolet light source such as VUV (157 nm), since the composition has low light absorbance at 193 nm and 157 nm wavelength. wherein, X1, X2, R1, l and m are defined in the specification.

Abstract: The present invention provides photoresist monomers, photoresist polymers derived from the same, processes for producing such photoresist polymers, photoresist compositions comprising such polymers, and processes for producing a photoresist pattern using such photoresist compositions.

Abstract: The present invention relates to a semiconductor device using a copolymer-containing photoresist, and a process for manufacturing the same. As a norbornene derivative (monomer) having a hydrophilic group is synthesized and introduced to the backbone chain of a polymer, the polymer according to the present invention has excellent etching resistance and heat resistance, which are the characteristic points of alicyclic olefin structure, and provide excellent resolution due to prominent enhancement of adhesiveness resulted from introducing a hydrophilic group (—OH).

Abstract: The present invention relates to photoresist monomers, polymers formed therefrom and photoresist compositions suitable for photolithography processes employing a DUV light source, such as KrF (249 nm) and ArF(193 nm); EUV; VUV; E-beam; ion-beam; and X-ray.

Abstract: Photoresist compositions which are useful in a resist flow process are disclosed. A process for forming a contact hole pattern using the disclosed photoresist compositions is also disclosed. The disclosed photoresist resin includes a mixture of two or more polymers. Preferably, a mixture of a first copolymer and a second copolymer are cross-linked, and thus it prevents a contact hole from being collapsed due to over flow which is typically observed during a conventional resist flow process. In addition, the disclosed photoresist compositions allow formation of uniform sized patterns.

Abstract: Photoresist monomers of following Formula 1, photoresist polymers thereof, and photoresist compositions using the same. The photoresist composition has excellent etching resistance, heat resistance and adhesiveness, and is developable in aqueous tetramethylammonium hydroxide (TMAH) solution. In addition, the photoresist composition has low light absorbance at the wavelength of 193 nm, 157 nm and 13 nm, and thus is suitable for a photolithography process using ultraviolet light sources such as VUV (157 nm) and EUV (13 nm) in fabricating a minute circuit for a high integration semiconductor device. wherein, R1, R2, R3, Y, W, m and n are as defined in the specification.

Abstract: The present invention relates to photoresist compositions for resist flow process and processes for forming a contact hole pattern using the same. In particular, the present invention relates to photoresist composition comprising a thermal curing agent which cures photoresist composition at an elevated temperature. In one embodiment, the thermal curing agent comprises a thermal acid generator and a curing compound. Preferably, the curing compound comprises a cross-linking moiety which is capable of curing the photoresist composition when reacted with the acid that is generated by the thermal acid generator. Photoresist compositions of the present invention reduces or eliminate overflow of photoresist during a resist flow process, thereby preventing a contact hole pattern from being destroyed. In addition, photoresist compositions of the present invention allow formation of uniform sized patterns and increase in etching selection rate.

Abstract: Photoresist polymers having nitro groups (—NO2), and photoresist compositions containing the same. A photoresist pattern having excellent endurance, etching resistance, reproducibility and resolution can be formed by the use of the photoresist copolymer comprising polymerization repeating units represented by Chemical Formula 1a or 1b: wherein, R1, a, b, c, d, e, f, g and h is defined in the specification. Having nitro groups in the polymer, the photoresist polymer results in a low absorbance in the range of 157 nm wavelength, so that it is extremely useful for a photolithography process using, in particular, VUV light source.

Abstract: A method for forming a micro-pattern of a semiconductor substrate, and more particularly, to a method for preventing defects in a photoresist pattern, such as undercut or footing, due to inter-mixing between an organic anti-reflective coating and a photoresist by forming a carbonized layer on the surface of the organic anti-reflective coating by a curing process like ion implantation or E-beam curing.

Abstract: The present invention relates to a copolymer resin for a photoresist used in far ultraviolet ray such as KrF or ArF, process for preparation thereof, and photoresist comprising the same resin. The copolymer resin according to the present invention is easily prepared by conventional radical polymerization due to the introduction of mono-methyl cis-5-norbonen-endo-2,3-dicarboxylate unit to a structure of norbornene-maleic anhydride copolymer for photoresist. The resin has high transparency at 193 nm wavelength, provides increased etching resistance and settles the problem of offensive odor occurred in the course of copolymer resin synthesis. Further, as the resin composition can be easily controlled due to the molecular structure, the resin can be manufactured in a large scale.

Abstract: A process of forming ultra fine patterns using bottom anti-reflective coating containing acid generator. More particularly, a process of forming vertical patterns using an organic bottom anti-reflective coating containing excessive amount of acid generator, in order to prevent formation of sloping patterns due to photoresist resins absorbing wavelength of light used as light sources during lithography process using light sources such as KrF, ArF, VUV, EUV, E-beam and ion beam, even when photoresist resins having high absorbance to light source are used.

Abstract: A compound of Formula 10, an organic anti-reflective polymer having the structure of Formula 1 synthesized from the compound of Formula 1 and a preparation method thereof. An anti-reflective coating composition including the above organic anti-reflective polymer, as well as a preparation method of an anti-reflective coating. The anti-reflective coating comprising the disclosed polymer eliminates standing waves caused by the optical properties of lower layers on the wafer and by the changes in the thickness of the photoresist, prevents back reflection and also solves the problem of CD alteration cause by the diffracted and reflected light from such lower layers. Such advantages enable the formation of stable ultrafine patterns suitable for 64M, 256M, 1G, 4G, and 16G DRAM semiconductor devices and an increase of the production yields.

Abstract: The present invention provides compounds represented by formulas 1a and 1b; and photoresist polymers derived from the same.