Semiconductor device and manufacturing method thereof
First Claim
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1. A method comprising:
- depositing a first layer on a first semiconductor epi layer in an overlying position with respect to at least one trench structure formed in the first semiconductor epi layer, wherein the first layer comprises a first metal and a second metal, and wherein the trench structure comprises an isolating layer along a first wall, a bottom surface, and an opposite second wall, and a conductive layer formed in the trench between the first wall and the second wall, wherein the first layer overlies the conductive layer and the isolating layer;
subjecting the first semiconductor epi layer to at least a first annealing act to provide a first structure wherein the first layer reacts with the first semiconductor epi layer and the conductive layer to form a silicide;
stripping at least a portion of the first structure to remove any of the first layer not reacted with silicon to form a silicide during the first annealing act, wherein an opening is thereby formed to the isolating layer at the first and second wall of the trench structure and between the silicide formed overlying the first semiconductor epi layer and silicide formed overlying the conductive layer; and
thereafter, subjecting the stripped first structure to a second annealing act.
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Abstract
A number of variations may include a method that may include depositing a first layer on a first semiconductor epi layer (epitaxial layer) in an overlying position with respect to at least one trench structure formed in the first semiconductor epi layer. The layer may include a first metal and a second metal. The first semiconductor epi layer may be subjected to at least a first annealing act to provide a first structure. At least a portion of the first structure may be stripped to remove any of the first layer not reacted with silicon to form a silicide during the first annealing act. Thereafter, the stripped first structure may be subjected to a second annealing act.
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Citations
20 Claims
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1. A method comprising:
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depositing a first layer on a first semiconductor epi layer in an overlying position with respect to at least one trench structure formed in the first semiconductor epi layer, wherein the first layer comprises a first metal and a second metal, and wherein the trench structure comprises an isolating layer along a first wall, a bottom surface, and an opposite second wall, and a conductive layer formed in the trench between the first wall and the second wall, wherein the first layer overlies the conductive layer and the isolating layer; subjecting the first semiconductor epi layer to at least a first annealing act to provide a first structure wherein the first layer reacts with the first semiconductor epi layer and the conductive layer to form a silicide; stripping at least a portion of the first structure to remove any of the first layer not reacted with silicon to form a silicide during the first annealing act, wherein an opening is thereby formed to the isolating layer at the first and second wall of the trench structure and between the silicide formed overlying the first semiconductor epi layer and silicide formed overlying the conductive layer; and thereafter, subjecting the stripped first structure to a second annealing act. - View Dependent Claims (2, 3, 4, 5, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19)
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6. A method comprising:
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depositing a first layer on a first semiconductor epi layer in an overlying position with respect to at least one trench structure formed in the first semiconductor epi layer, wherein the first layer comprises a first metal and a second metal and wherein the trench structure comprises an insulation layer along a first wall, an opposite second wall, and a bottom wall and a conductive layer formed in the trench overlying the insulation layer between the first wall and the second wall and over the bottom wall, wherein the first layer overlies the conductive layer and a top surface of the isolating layer at the first and second wall of the trench structure; subjecting the first semiconductor epi layer to at least a first annealing act to provide a first structure wherein the energy of the first annealing act is selected to be low enough to prevent silicon from migrating across the first or second wall of the insulation layer of the trench structure to form a silicide overlying the insulation layer, and wherein the first annealing act causes the first layer to react with the first semiconductor epi layer and the conductive layer to form a silicide; stripping at least a portion of the first structure to remove any of the first layer overlying the first and second wall of the insulation layer not reacted with silicon to form a silicide during the first annealing act, forming an opening to the insulation layer at the first and second wall of the trench structure; and thereafter, subjecting the stripped first structure to a second annealing act. - View Dependent Claims (7, 8, 9)
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20. A method comprising:
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depositing a first layer on a top surface of a first semiconductor layer in an overlying position with respect to at least one trench structure formed in the first semiconductor layer, wherein the first layer comprises a first metal and a second metal and wherein the trench structure is filled with a conductive layer isolated from the first semiconductor layer by an isolating layer extending from the top surface along a first vertical wall, a bottom surface, and an opposite second vertical wall of the trench structure, and wherein the first layer is in an overlying position with respect to the conductive layer and the isolating layer; subjecting the first semiconductor layer to at least a first annealing act to provide a first structure held at a first energy level and to form a silicide layer overlying the first semiconductor layer and the conductive layer; stripping at least a portion of the first structure to remove any of the first layer not reacted with silicon to form a silicide during the first annealing act to form an opening between the silicide layer overlying the first semiconductor layer and silicide layer overlying the conductive layer; and thereafter, subjecting the stripped first structure to a second annealing act held at a second energy level that is higher than the first energy level.
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Specification