MOS transistor and method for making the same
First Claim
1. A method for making a transistor device of a type which comprises a semiconductor layer formed on an insulating layer and having a channel region, a doped source region and a doped drain region therein, comprising the steps of:
- bonding a first semiconductor substrate as said semiconductor layer with a second semiconductor substrate, said first semiconductor substrate having an insulating layer thereon at a surface thereof;
forming a gate electrode on a surface of said semiconductor layer opposite said insulating layer;
using said gate electrode as a mask along with a resist mask, thereby forming by ion implantation said doped source and drain regions at portions of said semiconductor layer in a direction laterally outwardly of said gate electrode and terminating at a distance outwardly from said gate electrode which is shorter than an overall lateral extent of said semiconductor layer both to the left and to the right so that remaining portions of said semiconductor layer outwardly of said doped source and drain regions are not effected by the ion implantation, said channel region being defined between said doped source and doped drain regions beneath said gate electrode;
forming gate side walls of an insulating material at both lateral sides of said gate electrode and substantially coincident in lateral extent with a width and lateral extent of said doped source and doped drain regions;
using said gate side walls and said gate electrode as another mask, converting said remaining portions of said semiconductor layer outwardly of said source and drain regions which have not been effected by the ion implantation to first and second conductive regions respectively lying adjacent said doped source and doped drain regions, and wherein said first and second conductive regions are made of an element selected from the group consisting of a metal and a metal compound.
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Abstract
Transistor devices comprise a gate electrode, a channel region formed beneath the gate electrode, a source region in contact with one side of the channel region, a first conductive region formed in a semiconductor layer at the outer side of the source region and made of a metal or metal compound, a drain region formed in contact with the other side of the channel region, and a second conductive region formed in the semiconductor layer at the outer side of the drain region and consisting of a metal or a metal compound. The transistor has an SOI structure which has an improved breakdown voltage between the source region and the drain region with low sheet resistances of the source and drain regions. Methods for making the transistor devices are also described.
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Citations
11 Claims
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1. A method for making a transistor device of a type which comprises a semiconductor layer formed on an insulating layer and having a channel region, a doped source region and a doped drain region therein, comprising the steps of:
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bonding a first semiconductor substrate as said semiconductor layer with a second semiconductor substrate, said first semiconductor substrate having an insulating layer thereon at a surface thereof; forming a gate electrode on a surface of said semiconductor layer opposite said insulating layer; using said gate electrode as a mask along with a resist mask, thereby forming by ion implantation said doped source and drain regions at portions of said semiconductor layer in a direction laterally outwardly of said gate electrode and terminating at a distance outwardly from said gate electrode which is shorter than an overall lateral extent of said semiconductor layer both to the left and to the right so that remaining portions of said semiconductor layer outwardly of said doped source and drain regions are not effected by the ion implantation, said channel region being defined between said doped source and doped drain regions beneath said gate electrode; forming gate side walls of an insulating material at both lateral sides of said gate electrode and substantially coincident in lateral extent with a width and lateral extent of said doped source and doped drain regions; using said gate side walls and said gate electrode as another mask, converting said remaining portions of said semiconductor layer outwardly of said source and drain regions which have not been effected by the ion implantation to first and second conductive regions respectively lying adjacent said doped source and doped drain regions, and wherein said first and second conductive regions are made of an element selected from the group consisting of a metal and a metal compound. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A method for making a transistor device of a type which comprises a semiconductor layer formed on an insulating layer and having a channel region, a source region, and a drain region therein, comprising the steps of:
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forming first and second conductive regions spaced apart from each other by a gap in said semiconductor layer and made of an element selected from the group consisting of a metal and a metal compound, said gap between said first and second conductive regions in said semiconductor layer including therein a channel region and said first and second conductive regions extending to all regions of said semiconductor layer other than said channel region; forming said insulating layer on one side of the semiconductor layer; bonding said semiconductor layer with another semiconductor layer at a side of the semiconductor layer where the insulating layer is located; forming a gate electrode on a side of said semiconductor layer opposite said insulating layer above said gap between said first and second conductive regions where said channel region is located; forming said source and drain regions in said semiconductor layer by ion implantation using said gate electrode and a resist mask, said source and drain regions which are ion implanted extending laterally outwardly from said channel region and terminating where said first and second conductive regions begin which is at a distance less than an overall lateral extent of said semiconductor layer so that said first and second conductive regions lie outwardly of said source and drain regions and are unaffected by said ion implantation; and forming gate side walls laterally outwardly of said gate electrode and substantially over said first and second source and drain regions. - View Dependent Claims (8, 9, 10, 11)
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Specification