SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING SAME

US 20100148274A1
Filed: 02/25/2010
Published: 06/17/2010
Est. Priority Date: 10/16/2006
Status: Active Grant

First Claim

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1. A semiconductor device including an N-channel insulated gate field effect transistor and a P-channel insulated gate field effect transistor and being provided with an insulating layer, whereineach of gate electrodes of the N-channel insulated gate field effect transistor and the P-channel insulated gate field effect transistor is buried in a gate electrode formation opening provided in the insulating layer,the gate electrode of the N-channel insulated gate field effect transistor is composed of a first conductive material,the gate electrode of the P-channel insulated gate field effect transistor is composed of a second conductive material different from the first conductive material, andinterconnect layers are formed to each cover a whole top surface of a respective one of the gate electrodes of the N-channel insulated gate field effect transistor and the P-channel insulated gate field effect transistor.

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Abstract

A semiconductor device including an N-channel insulated gate field effect transistor and a P-channel insulated gate field effect transistor, the device having: a first insulating layer and a second insulating layer; and gate electrode contact plugs. Each of the gate electrodes of the N-channel insulated gate field effect transistor and the P-channel insulated gate field effect transistor is buried in a gate electrode formation opening provided in the first insulating layer.

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8 Claims

1. A semiconductor device including an N-channel insulated gate field effect transistor and a P-channel insulated gate field effect transistor and being provided with an insulating layer, whereineach of gate electrodes of the N-channel insulated gate field effect transistor and the P-channel insulated gate field effect transistor is buried in a gate electrode formation opening provided in the insulating layer,the gate electrode of the N-channel insulated gate field effect transistor is composed of a first conductive material,the gate electrode of the P-channel insulated gate field effect transistor is composed of a second conductive material different from the first conductive material, andinterconnect layers are formed to each cover a whole top surface of a respective one of the gate electrodes of the N-channel insulated gate field effect transistor and the P-channel insulated gate field effect transistor.
- View Dependent Claims (2, 3, 4, 5)
- - 2. The semiconductor device according to claim 1, whereinthe interconnect layer formed to cover the top surface of the gate electrode of the N-channel insulated gate field effect transistor and the interconnect layer formed to cover the top surface of the gate electrode of the P-channel insulated gate field effect transistor are a common interconnect layer.
  - 3. The semiconductor device according to claim 1, whereinthe insulating layer exists between the gate electrode of the N-channel insulated gate field effect transistor and the gate electrode of the P-channel insulated gate field effect transistor.
  - 4. The semiconductor device according to claim 1, whereinthe interconnect layers are each composed of one conductive material layer.
  - 5. The semiconductor device according to claim 1, whereinthe interconnect layers each have a multilayer structure formed of a lower conductive material layer and an upper conductive material layer, andthe lower conductive material layer is formed of a silicon layer and the upper conductive material layer is formed of a silicide layer.

6. A method for manufacturing a semiconductor device including an N-channel insulated gate field effect transistor and a P-channel insulated gate field effect transistor, the method comprising the steps of:
- preparing a base that includes channel forming regions and source/drain regions of the N-channel insulated gate field effect transistor and the P-channel insulated gate field effect transistor, an insulating layer, gate electrode formation openings provided in the insulating layer for the N-channel insulated gate field effect transistor and the P-channel insulated gate field effect transistor, and a gate insulating film provided at least on bottoms of the gate electrode formation openings;
  
  forming a gate electrode composed of a first conductive material in the gate electrode formation opening for the N-channel insulated gate field effect transistor, andforming a gate electrode composed of a second conductive material different from the first conductive material in the gate electrode formation opening for the P-channel insulated gate field effect transistor; and
  
  forming interconnect layers that each cover a whole top surface of a respective one of the gate electrodes of the N-channel insulated gate field effect transistor and the P-channel insulated gate field effect transistor.
- View Dependent Claims (7, 8)
- - 7. The method for manufacturing a semiconductor device according to claim 6, whereinthe step of forming interconnect layers includes the steps of forming an upper insulating layer on an entire surface;
    - selectively removing partial portions of the upper insulating layer above the top surfaces of the gate electrodes of the N-channel insulated gate field effect transistor and the P-channel insulated gate field effect transistor, to thereby provide interconnect layer trenches in the upper insulating layer;
      
      filling the interconnect layer trenches with a conductive material layer; and
      
      removing the conductive material layer on the upper insulating layer.
  - 8. The method for manufacturing a semiconductor device according to claim 6, whereinthe step of forming interconnect layers includes the steps of forming a silicon layer;
    - patterning the silicon layer;
      
      forming a metal layer on an entire surface;
      
      carrying out heat treatment for a reaction between a metal of the metal layer and silicon of the silicon layer to thereby form the interconnect layers each formed of a metal silicide layer; and
      
      removing the metal layer on the insulating layer.

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Current Assignee
Sony Corporation (Sony Group Corp.)
Original Assignee
Sony Corporation (Sony Group Corp.)
Inventors
Tai, Kaori, Tsukamoto, Masanori, Nakata, Masashi, Oshiyama, Itaru

Granted Patent

US 7,902,610 B2
Time in Patent Office

Days
Field of Search
US Class Current

257/369
CPC Class Codes

H01L 21/76895   Local interconnects; Local ...

H01L 21/823842   gate conductors with differ...

H01L 21/823871   interconnection or wiring o...

H01L 29/66545   using a dummy, i.e. replace...

SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING SAME

First Claim

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Abstract

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8 Claims

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SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING SAME

First Claim

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Accused Products

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Abstract

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8 Claims

Specification

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