Patent application number | Description | Published |
20130273740 | FILM PORTION AT WAFER EDGE - A film layer on a substrate of the wafer is patterned to form a first plurality of areas of the film layer and a second plurality of areas of the film layer. The first plurality of areas of the film layer is removed. The second plurality of areas of the film layer is kept on the substrate. A first portion of the film layer is kept on the substrate. A first edge of the first portion of the film layer is substantially near an edge of the wafer. The first portion of the film layer defines a boundary for the wafer. | 10-17-2013 |
20140061738 | Method to Form a CMOS Image Sensor - The present disclosure relates to a method and composition to limit crystalline defects introduced in a semiconductor device during ion implantation. A high-temperature low dosage implant is performed utilizing a tri-layer photoresist which maintains the crystalline structure of the semiconductor device while limiting defect formation within the semiconductor device. The tri-layer photoresist comprises a layer of spin-on carbon deposited onto a substrate, a layer of silicon containing hard-mask formed above the layer of spin-on carbon, and a layer of photoresist formed above the layer of silicon containing hard-mask. A pattern formed in the layer of photoresist is sequentially transferred to the silicon containing hard-mask, then to the spin-on carbon, and defines an area of the substrate to be selectively implanted with ions. | 03-06-2014 |
20140065843 | Method of Forming a Photoresist Layer - A method for forming a photoresist layer on a semiconductor device is disclosed. An exemplary includes providing a wafer. The method further includes spinning the wafer during a first cycle at a first speed, while a pre-wet material is dispensed over the wafer and spinning the wafer during the first cycle at a second speed, while the pre-wet material continues to be dispensed over the wafer. The method further includes spinning the wafer during a second cycle at the first speed, while the pre-wet material continues to be dispensed over the wafer and spinning the wafer during the second cycle at the second speed, while the pre-wet material continues to be dispensed over the wafer. The method further includes spinning the wafer at a third speed, while a photoresist material is dispensed over the wafer including the pre-wet material. | 03-06-2014 |
20140272704 | THICKENING PHASE FOR SPIN COATING PROCESS - Among other things, one or more techniques and systems for performing a spin coating process associated with a wafer and for controlling thickness of a photoresist during the spin coating process are provided. In particular, a thickening phase is performed during the spin coating process in order to increase a thickness of the photoresist. For example, air temperature of down flow air, flow speed of the down flow air, and heat temperature of heat supplied towards the wafer are increased during the thickening phase. The increase in down flow air and heat increase a vaporization factor of the photoresist, which results in an increase in viscosity and thickness of the photoresist. In this way, the wafer can be rotated at relatively lower speeds, while still attaining a desired thickness. Lowering rotational speed of wafers allows for relatively larger wafers to be stably rotated. | 09-18-2014 |
20140272715 | Lithography Process on High Topology Features - A method includes forming a first photo resist layer over a base structure and a target feature over the base structure, performing an un-patterned exposure on the first photo resist layer, and developing the first photo resist layer. After the step of developing, a corner portion of the first photo resist layer remains at a corner between a top surface of the base structure and an edge of the target feature. A second photo resist layer is formed over the target feature, the base structure, and the corner portion of the first photo resist layer. The second photo resist layer is exposed using a patterned lithography mask. The second photo resist layer is patterned to form a patterned photo resist. | 09-18-2014 |
20150206873 | Alignment Marks in Non-STI Isolation Formation and Methods of Forming the Same - A method includes forming a photo resist over a semiconductor substrate of a wafer, patterning the photo resist to form a first opening in the photo resist, and implanting the semiconductor substrate using the photo resist as an implantation mask. An implanted region is formed in the semiconductor substrate, wherein the implanted region is overlapped by the first opening. A coating layer is coated over the photo resist, wherein the coating layer includes a first portion in the first opening, and a second portion over the photo resist. A top surface of the first portion is lower than a top surface of the second portion. The coating layer, the photo resist, and the implanted region are etched to form a second opening in the implanted region. | 07-23-2015 |
20150212420 | FILM PORTION AT WAFER EDGE - A method for preparing a wafer includes forming a film layer on a substrate of the wafer; coating the film layer with a photoresist layer; exposing a first portion of the photoresist layer to a beam of light; and patterning a second portion of the photoresist layer after performing exposing the first portion of the photoresist layer. A cross-link reaction is caused on the first portion of the photoresist layer and the first portion of the photoresist layer is converted to a reacted first portion of the photoresist layer. The reacted first portion of the photoresist layer is near an edge of the wafer. The second portion of the photoresist layer is different from the reacted first portion of the photoresist layer. The second portion of the photoresist layer is converted to a patterned second portion of the photoresist layer. | 07-30-2015 |
20150243500 | METHOD OF FORMING A PHOTORESIST LAYER - A method for forming a photoresist layer on a semiconductor device is disclosed. An exemplary includes providing a wafer. The method further includes spinning the wafer during a first cycle at a first speed, while a pre-wet material is dispensed over the wafer and spinning the wafer during the first cycle at a second speed, while the pre-wet material continues to be dispensed over the wafer. The method further includes spinning the wafer during a second cycle at the first speed, while the pre-wet material continues to be dispensed over the wafer and spinning the wafer during the second cycle at the second speed, while the pre-wet material continues to be dispensed over the wafer. The method further includes spinning the wafer at a third speed, while a photoresist material is dispensed over the wafer including the pre-wet material. | 08-27-2015 |