Patent application number | Description | Published |
20090117498 | PATTERN FORMING METHOD - A pattern forming method according to an embodiment of the present invention includes forming a resist layer on a semiconductor substrate, selectively exposing the resist layer, developing the selectively exposed resist layer, decomposing photosensitizer in the resist layer after developing the resist layer, removing the photosensitizer or acid generated from the decomposed photosensitizer, applying a shrink material on the developed resist layer after removing the photosensitizer or the acid generated from the decomposed photosensitizer, performing a heating process for the resist layer on which the shrink material is applied, and removing a part of the heat-processed shrink material. | 05-07-2009 |
20090305167 | METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE - In the method for manufacturing a semiconductor device, a resist film is formed on a substrate and is processed to be provided with openings to form a first resist pattern. Additive-containing layers containing an additive that changes a state of the resist film to a soluble state for a developer are formed so as to cover the first resist pattern. A first resin film having a nature of changing to a soluble state for the developer by containing the additive is formed in the openings of the first resist pattern. The additive is diffused into the first resist pattern and the first resin film to form first and second additive-diffusing portions which can be solved in the developer. The first and second additive-diffusing portions are removed by the developer to form second resist pattern made of remaining portions in the first resist pattern and the first resin film. | 12-10-2009 |
20090305174 | METHOD OF FORMING RESIST PATTERN - Provided is a method of forming a resist pattern capable of forming a resist pattern, whose dimensional variations and defects are reduced as far as possible, with a high throughput. The invention provides a method of forming a resist pattern involving the following: forming a resist film on a substrate; subjecting the resist film to exposure treatment in a pressure-reduced condition after performing pressure-reducing treatment; performing reduced-pressure releasing treatment that releases the resist film from a pressure-reduced condition while humidifying the resist film by introducing a humidity-adjusted gas into the pressure-reduced environment; performing bake treatment that heats the resist film after the reduced-pressure releasing treatment; and developing the resist film. | 12-10-2009 |
20100078860 | IMPRINT METHOD - An imprint method includes applying a light curable resin on a substrate to be processed, the substrate including first and second regions on which the light curable resin is applied, contacting an imprint mold with the light curable resin, curing the light curable resin by irradiating the light curable resin with light passing through the imprint mold, generating gas by performing a predetermined process to the light curable resin applied on a region of the substrate, the region including at least the first region, wherein an amount of gas generated from the light curable resin applied on the first region is larger than an amount of gas generated from the light curable resin of the second region, and forming a pattern by separating the imprint mold from the light curable resin after the gas being generated. | 04-01-2010 |
20100104984 | METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE - A template having a first recess pattern is brought into contact with a mask material formed on a substrate. The mask material with which the first recess pattern is filled is cured. A mask material pattern is formed on the substrate by releasing the template from the mask material. A resist pattern is formed to cover a part of the mask material pattern by forming a resist on the mask material pattern and selectively irradiating radiation onto the resist and thereafter developing the resist. The substrate is processed by using the mask material pattern and the resist pattern as a mask. | 04-29-2010 |
20100139421 | EVALUATION METHOD FOR CHEMICAL SOLUTION, QUALIFICATION METHOD FOR CHEMICAL SOLUTION AND METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE - A method for evaluating chemical solution includes determining number of particles in liquid for each size of the particles by measurement, expressing a relationship between size of the particles and number of particles corresponding to the size by a function based on the number of particles for each size of the particles determined by the measurement, and evaluating influence of particles having size less than or equal to a measurement limit in the liquid based on the function. | 06-10-2010 |
20100304568 | PATTERN FORMING METHOD - A pattern forming method includes forming a first photoresist on an underlying region, forming a second photoresist on the first photoresist, the second photoresist having an exposure sensitivity which is different from an exposure sensitivity of the first photoresist, radiating exposure light on the first and second photoresists via a photomask including a first transmissive region and a second transmissive region which cause a phase difference of 180° between transmissive light components passing therethrough, the first transmissive region and the second transmissive region being provided in a manner to neighbor in an irradiation region, and developing the first and second photoresists which have been irradiated with the exposure light, thereby forming a structure includes a first region where the underlying region is exposed, a second region where the first photoresist is exposed and a third region where the first photoresist and the second photoresist are left. | 12-02-2010 |
20110229826 | SEMICONDUCTOR DEVICE MANUFACTURING METHOD TO FORM RESIST PATTERN, AND SUBSTRATE PROCESSING APPARATUS - This invention discloses a method to form a resist pattern on a to-be-processed substrate by immersion exposure. A resist film is formed on the central portion of the upper surface of the to-be-processed substrate, on a bevel portion of the upper surface, which is obtained by chamfering the peripheral portion of the to-be-processed substrate, and on the end portion of the to-be-processed substrate. Pattern exposure for forming the latent image of a desired pattern on the resist film is executed while a liquid whose refractive index is higher than that of air exists between the resist film and a constituent element of a projection optical system of an exposure apparatus, which is nearest to the to-be-processed substrate. The resist film formed on the end portion of the to-be-processed substrate is removed by supplying a rinse solution to the end portion of the to-be-processed substrate after executing pattern exposure. | 09-22-2011 |