摘要:
The present disclosure provides a method for manufacturing at least one nanowire Tunnel Field Effect Transistor (TFET) semiconductor device. The method comprises providing a stack comprising a layer of channel material with on top thereof a layer of sacrificial material, removing material from the stack so as to form at least one nanowire from the layer of channel material and the layer of sacrificial material, and replacing the sacrificial material in the at least one nanowire by heterojunction material. A method according to embodiments of the present disclosure is advantageous as it enables easy manufacturing of complementary TFETs.
摘要:
The present disclosure provides a method for manufacturing at least one nanowire Tunnel Field Effect Transistor (TFET) semiconductor device. The method comprises providing a stack comprising a layer of channel material with on top thereof a layer of sacrificial material, removing material from the stack so as to form at least one nanowire from the layer of channel material and the layer of sacrificial material, and replacing the sacrificial material in the at least one nanowire by heterojunction material. A method according to embodiments of the present disclosure is advantageous as it enables easy manufacturing of complementary TFETs.
摘要:
A semiconductor fabrication process includes forming a silicon fin overlying a substrate. A gate dielectric is formed on primary faces of the fin. A gate electrode is formed over at least two faces of the fin. Dielectric spacers are then selectively formed in close proximity and confined to the sidewalls of the gate electrode thereby leaving a majority of the primary fin faces exposed. Thereafter a silicide is formed on the primary fin faces. The forming of the gate electrode in one embodiment includes depositing polysilicon over the fin and substrate, depositing a capping layer over the polysilicon, patterning photoresist over the capping layer and etching through the capping layer and the polysilicon with the patterned photoresist in place wherein the etching produces a polysilicon width that is less than a width of the capping layer to create voids under the capping layer adjacent sidewalls of the polysilicon where the confined spacers can be formed.
摘要:
A semiconductor fabrication process and structure in which a dielectric structure (106) is formed upon a substrate (102). Silicon is then deposited and processed to form a crystalline silicon wall (118) that envelopes the dielectric structure (106) and is physically and electrically isolated from the substrate (102). A gate dielectric film (130) is formed over at least two surfaces of the silicon wall (118) and a gate electrode film (132) is formed over the gate dielectric (130). The gate electrode film (132) is then patterned followed by conventional source/drain implant processing. Portions of the silicon wall (118) disposed on either side of the gate electrode (140) may then be contacted to form source/drain structures (150). In this manner, the portion of the silicon wall (118) covered by the gate electrode (140) comprises a transistor channel region having multiple surfaces controlled by gate electrode (140).
摘要:
A method for providing gates of transistors with at least two different work functions utilizes a silicidation of two different metals at different times, silicidation for one gate and polysilicon for the other, or silicidation using a single metal with two differently doped silicon structures. Thus the problem associated with performing silicidation of two different metals at the same time is avoided. If the two metals have significantly different silicidation temperatures, the one with the lower temperature silicidation will likely have significantly degraded performance as a result of having to also experience the higher temperature required to achieve silicidation with the other metal.