Patent application number | Description | Published |
20100052063 | METHOD TO IMPROVE DIELECTRIC QUALITY IN HIGH-K METAL GATE TECHNOLOGY - The present disclosure provides a method of fabricating a semiconductor device. The method includes providing a semiconductor substrate having a first active region and a second active region, providing a semiconductor substrate having a first region and a second region, forming a high-k dielectric layer over the semiconductor substrate, forming a first capping layer and a second capping layer over the high-k dielectric layer, the first capping layer overlying the first region and the second capping layer overlying the second region, forming a layer containing silicon (Si) over the first and second capping layers, forming a metal layer over the layer containing Si, and forming a first gate stack over the first region and a second gate stack over the second active region. The first gate stack includes the high-k dielectric layer, the first capping layer, the layer containing Si, and the metal layer and the second gate stack includes the high-k dielectric layer, the second capping layer, the layer containing Si, and the metal layer. | 03-04-2010 |
20100065925 | LOCAL CHARGE AND WORK FUNCTION ENGINEERING ON MOSFET - The present disclosure provides a semiconductor device. The semiconductor device includes a semiconductor substrate having a source region and a drain region, defining a first dimension from the source to drain; and a gate stack disposed on the semiconductor substrate and partially interposed between the source region and the drain region. The gate stack includes a high k dielectric layer disposed on the semiconductor substrate; a first metal feature disposed on the high k dielectric layer, the first metal gate feature having a first work function and defining a second dimension parallel with the first dimension; and a second metal feature having a second work function different from the first work function and defining a third dimension parallel with the first dimension, the third dimension being less than the second dimension. | 03-18-2010 |
20100078733 | TRANSISTOR PERFORMANCE IMPROVING METHOD WITH METAL GATE - The present disclosure provides a method for making a semiconductor device having metal gate stacks. The method includes forming a high k dielectric material layer on a semiconductor substrate; forming a first metal layer on the high k dielectric material layer; forming a silicon layer on the first metal layer; patterning the silicon layer, the first metal layer and the high k dielectric material layer to form a gate stack; and performing a silicidation process to fully change the silicon layer into a silicide electrode. | 04-01-2010 |
20100084719 | TRANSISTOR PERFORMANCE WITH METAL GATE - The present disclosure provides a method for making a semiconductor device having metal gate stacks. The method includes forming a high k dielectric material layer on a semiconductor substrate; forming a metal gate layer on the high k dielectric material layer; forming a top gate layer on the metal gate layer; patterning the top gate layer, the metal gate layer and the high k dielectric material layer to form a gate stack; performing an etching process to selectively recess the metal gate layer; and forming a gate spacer on sidewalls of the gate stack. | 04-08-2010 |
20110303991 | TRANSISTOR PERFORMANCE IMPROVING METHOD WITH METAL GATE - The present disclosure provides a method for making a semiconductor device having metal gate stacks. The method includes forming a high k dielectric material layer on a semiconductor substrate; forming a first metal layer on the high k dielectric material layer; forming a silicon layer on the first metal layer; patterning the silicon layer, the first metal layer and the high k dielectric material layer to form a gate stack; and performing a silicidation process to fully change the silicon layer into a silicide electrode. | 12-15-2011 |
20120003804 | Local Charge and Work Function Engineering on MOSFET - The present disclosure provides a semiconductor device. The semiconductor device includes a semiconductor substrate having a source region and a drain region, defining a first dimension from the source to drain; and a gate stack disposed on the semiconductor substrate and partially interposed between the source region and the drain region. The gate stack includes a high k dielectric layer disposed on the semiconductor substrate; a first metal feature disposed on the high k dielectric layer, the first metal gate feature having a first work function and defining a second dimension parallel with the first dimension; and a second metal feature having a second work function different from the first work function and defining a third dimension parallel with the first dimension, the third dimension being less than the second dimension. | 01-05-2012 |
20130119485 | Transistor Performance Improving Method with Metal Gate - The present disclosure provides a method for making a semiconductor device having metal gate stacks. The method includes forming a high k dielectric material layer on a semiconductor substrate; forming a first metal layer on the high k dielectric material layer; forming a silicon layer on the first metal layer; patterning the silicon layer, the first metal layer and the high k dielectric material layer to form a gate stack; and performing a silicidation process to fully change the silicon layer into a silicide electrode. | 05-16-2013 |