Semiconductor structure with increased space and volume between shaped epitaxial structures
First Claim
1. A semiconductor structure, comprising:
- a semiconductor substrate;
a plurality of raised semiconductor structures coupled to the substrate; and
a plurality of shaped epitaxial structures of a semiconductor material on top surfaces of the plurality of raised semiconductor structures, wherein the shaped epitaxial structures on adjacent raised structures are separated by a space, and wherein the shaped epitaxial structures are modified to be taller and less wide by performing at least one cycle of annealing followed by further epitaxial growth as compared to an initial cycle of epitaxial growth to have greater volume and greater space between adjacent shaped epitaxial structures.
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Accused Products
Abstract
A semiconductor structure includes a bulk silicon substrate and one or more silicon fins coupled to the bulk silicon substrate. Stress-inducing material(s), such as silicon, are epitaxially grown on the fins into naturally diamond-shaped structures using a controlled selective epitaxial growth. The diamond shaped structures are subjected to annealing at about 750° C. to about 850° C. to increase an area of (100) surface orientation by reshaping the shaped structures from the annealing. Additional epitaxy is grown on the increased (100) area. Multiple cycles of increasing the area of (100) surface orientation (e.g., by the annealing) and growing additional epitaxy on the increased area are performed to decrease the width of the shaped structures, increasing the space between them to prevent them from merging, while also increasing their volume.
4 Citations
14 Claims
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1. A semiconductor structure, comprising:
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a semiconductor substrate; a plurality of raised semiconductor structures coupled to the substrate; and a plurality of shaped epitaxial structures of a semiconductor material on top surfaces of the plurality of raised semiconductor structures, wherein the shaped epitaxial structures on adjacent raised structures are separated by a space, and wherein the shaped epitaxial structures are modified to be taller and less wide by performing at least one cycle of annealing followed by further epitaxial growth as compared to an initial cycle of epitaxial growth to have greater volume and greater space between adjacent shaped epitaxial structures. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A non-planar semiconductor transistor, comprising:
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a semiconductor substrate; a plurality of raised semiconductor structures coupled to the semiconductor substrate; a source, a drain and a channel on a surface of the plurality of raised semiconductor structures opposite the semiconductor substrate, wherein the source, the drain and the channel comprise a plurality of shaped epitaxial structures of a semiconductor material; and wherein the plurality of shaped epitaxial structures on adjacent raised structures are separated by a space, and wherein the shaped epitaxial structures are modified to be taller and less wide by performing at least one cycle of annealing followed by further epitaxial growth as compared to an initial epitaxial growth to have greater volume and greater space between adjacent shaped epitaxial structures. - View Dependent Claims (9, 10, 11, 12, 13)
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14. A semiconductor structure, comprising:
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a semiconductor substrate; a plurality of raised semiconductor structures coupled to the substrate; a plurality of shaped epitaxial structures of a semiconductor material on top surfaces of the plurality of raised semiconductor structures, wherein the shaped epitaxial structures on adjacent raised structures are separated by a space, and wherein the shaped epitaxial structures are modified as compared to an initial cycle of epitaxial growth to have greater volume and greater space between adjacent shaped epitaxial structures; and wherein the semiconductor material of the shaped epitaxial structures comprises Phosphorus doped Silicon Carbon (SiC;
P).
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Specification