Patent application number | Description | Published |
20100252930 | Method for Improving Performance of Etch Stop Layer - A method of forming an interconnect structure includes providing a dielectric layer; forming a metal line in the dielectric layer; and forming a composite etch stop layer (ESL), which includes forming a lower ESL over the metal line and the dielectric layer; and forming an upper ESL over the lower ESL. The upper ESL and the lower ESL have different compositions. The step of forming the lower ESL and the step of forming the upper ESL are in-situ performed. | 10-07-2010 |
20120256324 | Method for Improving Performance of Etch Stop Layer - A method of forming an interconnect structure includes providing a dielectric layer; forming a metal line in the dielectric layer; and forming a composite etch stop layer (ESL), which includes forming a lower ESL over the metal line and the dielectric layer; and forming an upper ESL over the lower ESL. The upper ESL and the lower ESL have different compositions. The step of forming the lower ESL and the step of forming the upper ESL are in-situ performed. | 10-11-2012 |
20130193541 | UV Radiation Recovery of Image Sensor - A method of an embodiment comprises forming a dielectric layer on a first side of an image sensor substrate, and exposing the dielectric layer to ultraviolet (UV) radiation. The image sensor substrate comprises a photo diode. A structure of an embodiment comprises a substrate and a charge-less dielectric. The substrate comprises a photo diode. The charge-less dielectric layer is on a first side of the substrate, and a total charge of the charge-less dielectric results in an average voltage drop of less than 0.2 V across the charge-less dielectric layer. | 08-01-2013 |
20130241018 | Grids in Backside Illumination Image Sensor Chips and Methods for Forming the Same - A device includes a semiconductor substrate having a front side and a backside, a photo-sensitive device disposed on the front side of the semiconductor substrate, and a first and a second grid line parallel to each other. The first and the second grid lines are on the backside of, and overlying, the semiconductor substrate. The device further includes an adhesion layer, a metal oxide layer over the adhesion layer, and a high-refractive index layer over the metal layer. The adhesion layer, the metal oxide layer, and the high-refractive index layer are substantially conformal, and extend on top surfaces and sidewalls of the first and the second grid lines. | 09-19-2013 |
20140007905 | WAFER CLEANING SYSTEM AND METHOD USING ELECTROLYTIC GAS FOR BACK-END PURGE - A wafer cleaning system includes a platform, a plurality of wafer holding units over the platform, a front-end rinse nozzle, and a back-end purge unit. The plurality of wafer holding units is set to define a reference plane of wafer holding. The front-end rinse nozzle is above the reference plane and configured to dispense a first rinse fluid toward the reference plane. The back-end purge unit is below the reference plane and configured to dispense an electrolytic gas | 01-09-2014 |
20140264478 | INTERFACE FOR METAL GATE INTEGRATION - A metal oxide semiconductor field effect transistor (MOSFET) includes a semiconductor substrate and a interlayer dielectric (ILD) over the semiconductor substrate. A gate structure is formed within the ILD and disposed on the semiconductor substrate, wherein the gate structure includes a high-k dielectric material layer and a metal gate stack. One or more portions of a protection layer are formed over the gate stack, and a contact etch stop layer is formed over the ILD and over the one or more portions of the protection layer. The metal gate stack includes aluminum and the protection layer includes aluminum oxide. | 09-18-2014 |
20140273385 | INTERFACE FOR METAL GATE INTEGRATION - A metal oxide semiconductor field effect transistor (MOSFET) includes a semiconductor substrate and an interlayer dielectric (ILD) over the semiconductor substrate. A gate structure is formed within the ILD and disposed on the semiconductor substrate, wherein the gate structure includes a high-k dielectric material layer and a metal gate stack. One or more portions of a protection layer are formed over the gate stack, and a contact etch stop layer is formed over the ILD and over the one or more portions of the protection layer. The metal gate stack includes aluminum and the protection layer includes aluminum oxide. | 09-18-2014 |
20150236067 | Grids in Backside Illumination Image Sensor Chips and Methods for Forming the Same - A device includes a semiconductor substrate having a front side and a backside, a photo-sensitive device disposed on the front side of the semiconductor substrate, and a first and a second grid line parallel to each other. The first and the second grid lines are on the backside of, and overlying, the semiconductor substrate. The device further includes an adhesion layer, a metal oxide layer over the adhesion layer, and a high-refractive index layer over the metal layer. The adhesion layer, the metal oxide layer, and the high-refractive index layer are substantially conformal, and extend on top surfaces and sidewalls of the first and the second grid lines. | 08-20-2015 |