Semiconductor device and method of manufacturing the same
DCFirst Claim
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1. A semiconductor device comprising:
- a silicon substrate;
an n-type well and a p-type well formed on the surface of said silicon substrate and separated from each other by an element separation region;
a p-channel type insulated gate field effect transistor formed on said n-type well and having a first gate electrode; and
an n-channel type insulated gate field effect transistor formed on said p-type well and having a second gate electrode;
said first gate electrode formed on the surface of said n-type well by interposing a first gate oxide film ,and including a first conductive film of a nitride of a first high melting point metal directly contacted to the surface of said first gate oxide film and a second high melting point metal film formed on the surface of said first conductive film, and said second gate electrode formed on the surface of said p-well by interposing a second gate oxide film ,and including a second conductive film of a nitride of said first high melting point metal with higher nitrogen content than that of said first conductive film and directly contacted to the surface of said second gate oxide film and a metal film formed on the surface of said second conductive film.
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Abstract
One object of the present invention is to suppress a threshold voltage of at least an n-channel MISFET using a nitride of a high melting point metal at it'"'"'s gate electrode. In order to achieve the object, a gate electrode 109 of a p-channel MISFET is constituted of a titanium nitride film 106 and a tungsten film 107 formed on the film 106 and a gate electrode 110a of an n-channel MISFET is constituted of a titanium nitride film 106a and a tungsten film 107 formed on the film 106a. The titanium nitride film 106a is formed by nitrogen ion implantation in the titanium nitride film 106 to decrease the work function.
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Citations
24 Claims
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1. A semiconductor device comprising:
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a silicon substrate;
an n-type well and a p-type well formed on the surface of said silicon substrate and separated from each other by an element separation region;
a p-channel type insulated gate field effect transistor formed on said n-type well and having a first gate electrode; and
an n-channel type insulated gate field effect transistor formed on said p-type well and having a second gate electrode;
said first gate electrode formed on the surface of said n-type well by interposing a first gate oxide film ,and including a first conductive film of a nitride of a first high melting point metal directly contacted to the surface of said first gate oxide film and a second high melting point metal film formed on the surface of said first conductive film, and said second gate electrode formed on the surface of said p-well by interposing a second gate oxide film ,and including a second conductive film of a nitride of said first high melting point metal with higher nitrogen content than that of said first conductive film and directly contacted to the surface of said second gate oxide film and a metal film formed on the surface of said second conductive film. - View Dependent Claims (2, 3, 4)
said first and second gate oxide films are made of thermal oxidation films, said metal film constituting said second gate electrode is made of said second high melting point metal film and said first high melting point metal is selected from titanium, tungsten, and tantalum. -
3. A semiconductor device as set forth in claim 1, wherein each side face of said first gate electrode is directly coated with a side wall spacer,
each side face of said second gate electrode is coated with a side wall spacer through said second gate oxide film and said first high melting point metal is selected from titanium, tungsten, and tantalum. -
4. A semiconductor device as set forth in claim 3, wherein crystal orientation of said second conductive film differs from that of said first conductive film.
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5. A semiconductor device comprising:
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a silicon substrate;
an n-type well and a p-type well formed on the surface of said silicon substrate and separated from each other by an element separation region;
a p-channel type insulated gate field effect transistor formed on said n-type well and having a first gate electrode;
an n-channel type insulated gate field effect transistor formed on said p-type well and having a second gate electrode; and
side wall spacers respectively made of insulating films coating the side faces of said first and second gate electrodes, wherein said first gate electrode formed on the surface of said n-type well by interposing a first gate oxide film formed by thermal oxidation is constituted of a first conductive film of a nitride of a first high melting point metal directly coating the surface of said gate oxide film and a second high melting point metal film formed on the surface of said first conductive film, said second gate electrode formed on the surface of said p-well by interposing a gate insulating film containing nitrogen is constituted of a second conductive film of a nitride of said first high melting point metal with a higher nitrogen content than that of said first conductive film and directly coating the surface of said gate insulating film and a metal film formed on the surface of said second conductive film, side faces of said first gate electrode are directly coated with said side wall spacers and side faces of said second gate electrode are coated with said side wall spacers through said gate insulating film. - View Dependent Claims (6)
said first high melting point metal is selected from titanium, tungsten, and tantalum.
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7. A semiconductor device comprising a complementary insulated gate field effect transistor composed of a p-channel type insulated gate field effect transistor having a gate electrode and an n-channel type insulated gate field effect transistor having a gate electrode;
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said gate electrode of said p-channel type insulated gate field effect transistor including a conductive layer of a nitride of a high melting point metal;
said gate electrode of said n-channel type insulated gate field effect transistor including a conductive layer of a nitride of the same high melting point metal material as said high melting point metal in said p-channel type insulated gate field effect transistor;
whereinsaid conductive layer in said gate electrode of one of said transistors has a higher nitrogen content than that of said conductive layer in said gate electrode of the other of said transistors. - View Dependent Claims (8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24)
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Specification