| Patent application number | Description | Published |
|---|
| 20090087963 | METHOD FOR REDUCING PILLAR STRUCTURE DIMENSIONS OF A SEMICONDUCTOR DEVICE - A method creates pillar structures on a semiconductor wafer and includes the steps of providing a layer of semiconductor. A layer of photoresist is applied over the layer of semiconductor. The layer of photoresist is exposed with an initial pattern of light to effect the layer of photoresist. The photoresist layer is then etched away to provide a photoresist pattern to create the pillar structures. The photoresist pattern is processed in the layer of photoresist after the step of exposing the layer of photoresist and prior to the step of etching to reduce the dimensions of the photoresist pattern in the layer of photoresist. | 04-02-2009 |
| 20090179310 | Pillar devices and methods of making thereof - A method of making a semiconductor device includes providing an insulating layer containing a plurality of openings, forming a first semiconductor layer in the plurality of openings in the insulating layer and over the insulating layer, and removing a first portion of the first semiconductor layer, such that first conductivity type second portions of the first semiconductor layer remain in lower portions of the plurality of openings in the insulating layer, and upper portions of the plurality of openings in the insulating layer remain unfilled. The method also includes forming a second semiconductor layer in the upper portions of the plurality of openings in the insulating layer and over the insulating layer, and removing a first portion of the second semiconductor layer located over the insulating layer. The second conductivity type second portions of the second semiconductor layer remain in upper portions of the plurality of openings in the insulating layer to form a plurality of pillar shaped diodes in the plurality of openings. | 07-16-2009 |
| 20090258318 | Double patterning method - A method of making a device includes forming a first photoresist layer over an underlying layer, patterning the first photoresist layer to form a first photoresist pattern comprising a first grid, rendering the first photoresist pattern insoluble to a solvent, forming a second photoresist layer over the first photoresist pattern, patterning the second photoresist layer to form a second photoresist pattern over the underlying layer, where the second photoresist pattern is a second grid which overlaps the first grid to form a photoresist web, and etching the underlying layer using the photoresist web as a mask. | 10-15-2009 |
| 20090258495 | Modified darc stack for resist patterning - A method of making a device includes forming a device layer, forming an organic hard mask layer over the device layer, forming a first oxide hard mask layer over the organic hard mask layer, forming a DARC layer over the first oxide hard mask layer, forming a photoresist layer over the DARC layer, patterning the photoresist layer to form a photoresist pattern, and transferring the photoresist pattern to the device layer using the DARC layer, the first oxide hard mask layer and the organic hard mask layer. | 10-15-2009 |
| 20090258501 | Double patterning method - A method of making a device includes forming a first photoresist layer over an underlying layer, patterning the first photoresist layer to form a first photoresist pattern, rendering the first photoresist pattern insoluble to a solvent, forming a second photoresist layer over the first photoresist pattern, patterning the second photoresist layer to form a second photoresist pattern over the underlying layer, and etching the underlying layer using both the first and the second photoresist patterns as a mask. | 10-15-2009 |
| 20110014771 | Method of making damascene diodes using selective etching methods - A method of making a semiconductor device includes providing an insulating layer containing a plurality of openings, forming a first conductivity type semiconductor layer in the plurality of openings, forming a second conductivity type semiconductor layer over the first conductivity type semiconductor layer in the plurality of openings, and selectively etching the second conductivity type semiconductor layer using an upper surface of the first conductivity type semiconductor layer as a stop to form a recess in the plurality of openings. | 01-20-2011 |
| 20110136326 | PILLAR DEVICES AND METHODS OF MAKING THEREOF - A method of making a semiconductor device includes providing an insulating layer containing a plurality of openings, forming a first semiconductor layer in the plurality of openings in the insulating layer and over the insulating layer, and removing a first portion of the first semiconductor layer, such that first conductivity type second portions of the first semiconductor layer remain in lower portions of the plurality of openings in the insulating layer, and upper portions of the plurality of openings in the insulating layer remain unfilled. The method also includes forming a second semiconductor layer in the upper portions of the plurality of openings in the insulating layer and over the insulating layer, and removing a first portion of the second semiconductor layer located over the insulating layer. The second conductivity type second portions of the second semiconductor layer remain in upper portions of the plurality of openings in the insulating layer to form a plurality of pillar shaped diodes in the plurality of openings. | 06-09-2011 |
| 20110236833 | Double Patterning Method - A method of making a device includes forming a first photoresist layer over an underlying layer, patterning the first photoresist layer to form a first photoresist pattern comprising a first grid, rendering the first photoresist pattern insoluble to a solvent, forming a second photoresist layer over the first photoresist pattern, patterning the second photoresist layer to form a second photoresist pattern over the underlying layer, where the second photoresist pattern is a second grid which overlaps the first grid to form a photoresist web, and etching the underlying layer using the photoresist web as a mask. | 09-29-2011 |
