Claims
- 1. A semiconductor device comprising:
- a first silicon region containing a p-type impurity;
- a second silicon region containing an n-type impurity; and
- a metal silicide film for electrically connecting the first silicon region and the second silicon region,
- wherein the metal silicide film contains excessive silicon, the excessive silicon being precipitated in silicide grain boundaries in the metal silicide fill, so that the metal silicide film includes more boundaries between metal silicide grains and silicon grains having a diffusion coefficient D.sub.MSi2/Si of impurities than boundaries between the metal silicide grains having a diffusion coefficient D.sub.MSi1/MSi2 of the impurities where D.sub.MSi2/Si <<D.sub.MSi2/MSi2, thereby making a diffusion path of the impurities along the silicide grain boundaries discontinuous.
- 2. A semiconductor device according to claim 1, wherein the metal silicide film is a tungsten silicide film, the tungsten silicide film having a ratio of silicon atoms to tungsten atoms (Si/W) within a range of 2.36 to 4.0.
- 3. A semiconductor device according to claim 2, wherein the ratio of silicon atoms to tungsten atoms (Si/W) is within a range of 2.36 to 3.0.
- 4. A semiconductor device according to claim 1, wherein the first silicon region is a first polysilicon film doped with the p-type impurity in a p-type polycide gate electrode of a p-channel MOS transistor, the second silicon region is a second polysilicon film doped with the n-type impurity in an n-type polycide gate of an n-channel MOS transistor, and the metal silicide film is deposited on the first and second polysilicon films so as to electrically connect the first and second polysilicon films.
- 5. A semiconductor device according to claim 4, wherein the excessive silicon is sufficiently excessive to keep a threshold voltage deviation in the p-type and n-type polycide gate electrodes at a predetermined value or less.
- 6. A semiconductor device according to claim 5, wherein the threshold voltage deviation is suppressed within 20 mV.
- 7. A semiconductor device according to claim 5, wherein the threshold voltage deviation is suppressed within 10% of a design value.
- 8. A semiconductor device according to claim 1 wherein the first silicon region is a first polysilicon film doped with the p-type impurity, the first polysilicon film being in contact with a p.sup.+ -type diffusion region of a p-channel MOS transistor, the p.sup.+ -type diffusion region being doped with the p-type impurity, the second silicon region is a second polysilicon film doped with the n-type impurity, the second polysilicon film being in contact with an n.sup.+ -type diffusion region of an n-channel MOS transistor, the n.sup.+ -type diffusion region being doped with the n-type impurity, and the metal silicide film is deposited on the first and second polysilicon films so as to electrically connect the first and second polysilicon films.
- 9. A semiconductor device according to claim 8, wherein the excessive silicon is sufficiently excessive to keep a contact resistance deviation between the p.sup.+ -type diffusion region and the first polysilicon film and between the n.sup.+ -type diffusion region and the second polysilicon film at a predetermined value or less.
- 10. A semiconductor device according to claim 9, wherein the contact resistance deviation is suppressed within 20% of a design value.
- 11. A semiconductor device according to claim 1, wherein the impurities in the metal silicide film are boron, and a third silicon film for preventing segregation of the boron is deposited on the metal silicide film.
- 12. A semiconductor device according to claim 1, wherein the impurities in the metal silicide film are boron, and the boron is uniformly contained in the entire metal silicide film.
- 13. A semiconductor device according to claim 1, wherein the metal silicide film is in physical contact with both of the first and second silicon regions.
Priority Claims (1)
Number |
Date |
Country |
Kind |
6-003464 |
Jan 1994 |
JPX |
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Parent Case Info
This application is a division of application Ser. No. 08/368,604, filed Jan. 4, 1995, pending.
US Referenced Citations (9)
Non-Patent Literature Citations (1)
Entry |
Fujii et al; "Dual (n.sup.+ /p.sup.+) Polycide Gate Technology Using Silicon Rich WSi.sub.x . . . "; VLSI Technology Digest of Technical papers; Jun. 1994. |
Divisions (1)
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Number |
Date |
Country |
Parent |
368604 |
Jan 1995 |
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