Overlapped III-V finfet with doped semiconductor extensions

摘要

A semiconductor structure that includes a semiconductor fin comprising an III-V compound semiconductor material. A functional gate structure straddles a portion of the semiconductor fin. A semiconductor channel material having an electron mobility greater than silicon and comprising a different semiconductor material than the semiconductor fin and is located beneath the functional gate structure. The semiconductor channel material is present on at least each vertical sidewall of the semiconductor fin. A dielectric spacer is located on each vertical sidewall surface of the functional gate structure. A doped semiconductor is located on each side of the functional gate structure and underneath each dielectric spacer. A portion of the doped semiconductor material located beneath each dielectric spacer directly contacts a sidewall surface of semiconductor channel material located on each vertical sidewall of the semiconductor fin.

主权项

1. A method of forming a semiconductor structure comprising:
forming a semiconductor fin comprising an III-V compound semiconductor material on a surface of an insulator layer; epitaxially growing a semiconductor channel material on exposed surfaces of the semiconductor fin, wherein said semiconductor channel material has an electron mobility greater than silicon and comprises a different semiconductor material than said semiconductor fin; forming a gate structure straddling a portion of the semiconductor fin, wherein said gate structure is orientated perpendicular to said semiconductor fin, and wherein a dielectric spacer is present on each vertical sidewall of said gate structure; selectively etching portions of the semiconductor channel material from atop the structure not protected by the gate structure and from beneath each dielectric spacer, wherein an undercut is provided beneath each dielectric spacer; and epitaxially growing a doped semiconductor material having a higher dopant content than both said semiconductor fin and said semiconductor channel material on surfaces of the semiconductor fin not including the dielectric spacer and gate structure and within the undercut region.