摘要 |
The present invention relates to a semiconductor device and a manufacturing method for making the same, wherein, according to the method, after the gate stack is formed, a buffer layer is formed on sidewalls of an PMOS gate stack, the buffer layer being formed of a porous low-k dielectric layer; and then, sidewall spacers and source/drain/halo regions, and source and drain regions are formed for the device; and finally, a high-temperature anneal is conducted in an oxygen environment such that the oxygen in the oxygen environment diffuse through the buffer layer into the high-k dielectric layer of the second gate stack. The present invention lowers threshold voltage of the PMOS device without affecting the threshold voltage of the NMOS device, avoids damages to the gate and substrate incurred by removing the PMOS sidewall spacer in a traditional process, and hereby effectively improves the overall performance of the device. |