Transistor device and fabrication method

摘要

Fabrication methods for junctionless transistor and complementary junctionless transistor. An isolation layer doped with a first-type ion is formed on a semiconductor substrate and an active layer doped with a second-type ion is formed on the isolation layer. The active layer includes a first portion between a second portion and a third portion of the active layer. Portions of the isolation layer under the second and third portions of the active layer are removed to suspend the second and third portions of the active layer. A gate structure is formed on the first portion of the active layer. A source and a drain are formed by doping the second portion and the third portion of the active layer with the second-type ion on both sides of the gate structure. The source and the drain have a same doping type as the first portion of the active layer.

主权项

1. A method for forming a complementary junctionless transistor device comprising:
providing a semiconductor substrate, wherein the semiconductor substrate includes an N-field-effect transistor (NFET) portion and a P-field-effect transistor (PFET) portion neighboring with each other; forming an isolation layer on the semiconductor substrate and an active layer on the isolation layer, wherein the active layer and the isolation layer are made of materials having an etching selectivity, and the semiconductor substrate and the isolation layer are made of materials having an etching selectivity; forming a P-well in the NFET portion of the semiconductor substrate, and forming an N-well in the PFET portion of the semiconductor substrate; forming a P-doped isolation layer by doping a portion of the isolation layer on the NFET portion, and forming an N-doped isolation layer by doping a portion of the isolation layer on the PFET portion neighboring with the NFET portion; forming an N-doped active layer by doping a portion of the active layer on the P-doped isolation layer, and forming a P-doped active layer by doping a portion of the active layer on the N-doped isolation layer; etching the active layer and the isolation layer to form an opening to expose a surface of the semiconductor substrate covering an interface portion between the NFET portion and PFET portion; removing a portion of the P-doped isolation layer to suspend the N-doped active layer from opposing ends of the N-doped active layer, and removing a portion of the N-doped isolation layer to suspend the P-doped active layer from opposing ends of the P-doped active layer; forming a dielectric layer between the N-doped active layer and the semiconductor substrate, between the P-doped active layer and the semiconductor substrate, and in the opening; forming a first gate structure on the N-doped active layer disposed on a remaining P-doped isolation layer on the NFET portion, forming a second gate structure on the P-doped active layer disposed on a remaining N-doped isolation layer on the PFET portion; and forming an N-doped source and an N-doped drain in the N-doped active layer on both sides of the first gate structure, and forming a P-doped source and a P-doped drain in the P-doped active layer on both sides of the second gate structure.