Patent application number | Description | Published |
20100148234 | SUBRESOLUTION SILICON FEATURES AND METHODS FOR FORMING THE SAME - Novel etch techniques are provided for shaping silicon features below the photolithographic resolution limits. FinFET devices are defined by recessing oxide and exposing a silicon protrusion to an isotropic etch, at least in the channel region. In one implementation, the protrusion is contoured by a dry isotropic etch having excellent selectivity, using a downstream microwave plasma etch. | 06-17-2010 |
20110244404 | Photoresist Processing Methods - A photoresist processing method includes treating a substrate with a sulfur-containing substance. A positive-tone photoresist is applied on and in contact with the treated substrate. The method includes selectively exposing a portion of the photoresist to actinic energy and developing the photoresist to remove the exposed portion and to form a photoresist pattern on the substrate. The treating with a sulfur-containing substance reduces an amount of residual photoresist intended for removal compared to an amount of residual photoresist that remains without the treating. | 10-06-2011 |
20120061740 | SUBRESOLUTION SILICON FEATURES AND METHODS FOR FORMING THE SAME - Novel etch techniques are provided for shaping silicon features below the photolithographic resolution limits. FinFET devices are defined by recessing oxide and exposing a silicon protrusion to an isotropic etch, at least in the channel region. In one implementation, the protrusion is contoured by a dry isotropic etch having excellent selectivity, using a downstream microwave plasma etch. | 03-15-2012 |
20130017494 | Photoresist Processing Methods - A photoresist processing method includes treating a substrate with a sulfur-containing substance. A positive-tone photoresist is applied on and in contact with the treated substrate. The method includes selectively exposing a portion of the photoresist to actinic energy and developing the photoresist to remove the exposed portion and to form a photoresist pattern on the substrate. The treating with a sulfur-containing substance reduces an amount of residual photoresist intended for removal compared to an amount of residual photoresist that remains without the treating. | 01-17-2013 |
20140030863 | METHODS OF FORMING CAPACITORS - A method of forming capacitors includes providing first capacitor electrodes within support material. The first capacitor electrodes contain TiN and the support material contains polysilicon. The polysilicon-containing support material is dry isotropically etched selectively relative to the TiN-containing first capacitor electrodes using a sulfur and fluorine-containing etching chemistry. A capacitor dielectric is formed over sidewalls of the first capacitor electrodes and a second capacitor electrode is formed over the capacitor dielectric. Additional methods are disclosed. | 01-30-2014 |
20140120684 | Methods of Forming Capacitors - A method of forming capacitors includes providing first capacitor electrodes within support material. The first capacitor electrodes contain TiN and the support material contains polysilicon. The polysilicon-containing support material is dry isotropically etched selectively relative to the TiN-containing first capacitor electrodes using a sulfur and fluorine-containing etching chemistry. A capacitor dielectric is formed over sidewalls of the first capacitor electrodes and a second capacitor electrode is formed over the capacitor dielectric. Additional methods are disclosed. | 05-01-2014 |
20140162458 | Methods of Forming A Pattern On A Substrate - A method of forming a pattern on a substrate includes forming openings in material of a substrate. The openings are widened to join with immediately adjacent of the openings to form spaced pillars comprising the material after the widening. Other embodiments are disclosed. | 06-12-2014 |
20140370684 | METHODS FOR FORMING SUB-RESOLUTION FEATURES IN SEMICONDUCTOR DEVICES - Methods of forming semiconductor devices and features in semiconductor device structures include conducting an anti-spacer process to remove portions of a first mask material to form first openings extending in a first direction. Another anti-spacer process is conducted to remove portions of the first mask material to form second openings extending in a second direction at an angle to the first direction. Portions of the second mask material underlying the first mask material at intersections of the first openings and second openings are removed to form holes in the second mask material and to expose a substrate underlying the second mask material. | 12-18-2014 |