Salicide formation using a cap layer

摘要

A semiconductor device having a source feature and a drain feature formed in a substrate. The semiconductor device having a gate stack over a portion of the source feature and over a portion of the drain feature. The semiconductor device further having a first cap layer formed over substantially the entire source feature not covered by the gate stack, and a second cap layer formed over substantially the entire drain feature not covered by the gate stack. A method of forming a semiconductor device including forming a source feature and drain feature in a substrate. The method further includes forming a gate stack over a portion of the source feature and over a portion of the drain feature. The method further includes depositing a first cap layer over substantially the entire source feature not covered by the gate stack and a second cap layer over substantially the entire drain feature not covered by the gate stack.

主权项

1. A method of forming a semiconductor device, the method comprising:
forming a source feature and a drain feature in a substrate, wherein the source feature and the drain feature comprise silicon germanium; forming a gate stack over a first portion of the source feature and a first portion of the drain feature; depositing a first cap layer comprising silicon over a second portion of the source feature exposed by the gate stack; depositing a second cap layer comprising silicon over a second portion of the drain feature exposed by the gate stack; depositing a metal layer over the gate stack, the first cap layer and the second cap layer; and annealing the semiconductor device until all of the silicon in the first cap layer and the second cap layer reacts with metal from the metal layer, wherein the annealing causes metal from the metal layer to react with silicon in the first cap layer, the second cap layer, the source feature, and the drain feature while leaving at least a portion of the gate electrode free of silicide, wherein annealing the semiconductor device comprises annealing the semiconductor device at a temperature ranging from 450° C. to 800° C. to form a salicide layer having a germanium concentration less than 3% by weight.