摘要:
Techniques for defining a damascene gate in nanowire FET devices are provided. In one aspect, a method of fabricating a FET device is provided including the following steps. A SOI wafer is provided having a SOI layer over a BOX. Nanowires and pads are patterned in the SOI layer in a ladder-like configuration. The BOX is recessed under the nanowires. A patternable dielectric dummy gate(s) is formed over the recessed BOX and surrounding a portion of each of the nanowires. A CMP stop layer is deposited over the dummy gate(s) and the source and drain regions. A dielectric film is deposited over the CMP stop layer. The dielectric film is planarized using CMP to expose the dummy gate(s). The dummy gate(s) is at least partially removed so as to release the nanowires in a channel region. The dummy gate(s) is replaced with a gate conductor material.
摘要:
Techniques for defining a damascene gate in nanowire FET devices are provided. In one aspect, a method of fabricating a FET device is provided including the following steps. A SOI wafer is provided having a SOI layer over a BOX. Nanowires and pads are patterned in the SOI layer in a ladder-like configuration. The BOX is recessed under the nanowires. A patternable dielectric dummy gate(s) is formed over the recessed BOX and surrounding a portion of each of the nanowires. A CMP stop layer is deposited over the dummy gate(s) and the source and drain regions. A dielectric film is deposited over the CMP stop layer. The dielectric film is planarized using CMP to expose the dummy gate(s). The dummy gate(s) is at least partially removed so as to release the nanowires in a channel region. The dummy gate(s) is replaced with a gate conductor material.
摘要:
A method for forming a nanowire field effect transistor (FET) device includes forming a nanowire over a substrate, forming a liner material around a portion of the nanowire, forming a capping layer on the liner material, forming a first spacer adjacent to sidewalls of the capping layer and around portions of the nanowire, forming a hardmask layer on the capping layer and the first spacer, removing an exposed portion of the nanowire to form a first cavity partially defined by the gate material, epitaxially growing a semiconductor material on an exposed cross section of the nanowire in the first cavity, removing the hardmask layer and the capping layer, forming a second capping layer around the semiconductor material epitaxially grown in the first cavity to define a channel region, and forming a source region and a drain region contacting the channel region.
摘要:
A method for forming a nanowire field effect transistor (FET) device includes forming a nanowire over a substrate, forming a liner material around a portion of the nanowire, forming a capping layer on the liner material, forming a first spacer adjacent to sidewalls of the capping layer and around portions of the nanowire, forming a hardmask layer on the capping layer and the first spacer, removing an exposed portion of the nanowire to form a first cavity partially defined by the gate material, epitaxially growing a semiconductor material on an exposed cross section of the nanowire in the first cavity, removing the hardmask layer and the capping layer, forming a second capping layer around the semiconductor material epitaxially grown in the first cavity to define a channel region, and forming a source region and a drain region contacting the channel region.
摘要:
Nanowire-channel metal oxide semiconductor field effect transistors (MOSFETs) and techniques for the fabrication thereof are provided. In one aspect, a MOSFET includes a nanowire channel; a fully silicided gate surrounding the nanowire channel; and a raised source and drain connected by the nanowire channel. A method of fabricating a MOSFET is also provided.
摘要:
A memory device includes a first nanowire connected to a first bit line node and a ground node, a first field effect transistor (FET) having a gate disposed on the first nanowire, a second FET having a gate disposed on the first nanowire, a second nanowire connected to a voltage source node and a first input node, a third FET having a gate disposed on the second nanowire, a third nanowire connected to the voltage source node and a second input node, a fourth FET having a gate disposed on the third nanowire, a fourth nanowire connected to a second bit line node and the ground node, a fifth FET having a gate disposed on the fourth nanowire, and a sixth FET having a gate disposed on the fourth nanowire.
摘要:
An inverter device includes a first nanowire connected to a voltage source node and a ground node, a first p-type field effect transistor (pFET) device having a gate disposed on the first nanowire, and a first n-type field effect transistor (nFET) device having a gate disposed on the first nanowire.
摘要:
Semiconductor-based electronic devices and techniques for fabrication thereof are provided. In one aspect, a device is provided comprising a first pad; a second pad and a plurality of nanowires connecting the first pad and the second pad in a ladder-like configuration formed in a silicon-on-insulator (SOI) layer over a buried oxide (BOX) layer, the nanowires having one or more dimensions defined by a re-distribution of silicon from the nanowires to the pads. The device can comprise a field-effect transistor (FET) having a gate surrounding the nanowires wherein portions of the nanowires surrounded by the gate form channels of the FET, the first pad and portions of the nanowires extending out from the gate adjacent to the first pad form a source region of the FET and the second pad and portions of the nanowires extending out from the gate adjacent to the second pad form a drain region of the FET.
摘要:
Techniques for increasing effective device width of a nanowire FET device are provided. In one aspect, a method of fabricating a FET device is provided. The method includes the following steps. A SOI wafer is provided having an SOI layer over a BOX, wherein the SOI layer is present between a buried nitride layer and a nitride cap. The SOI layer, the buried nitride layer and the nitride cap are etched to form nanowire cores and pads in the SOI layer in a ladder-like configuration. The nanowire cores are suspended over the BOX. Epitaxial sidewalls are formed over the sidewalls of the nanowires cores. The buried nitride layer and the nitride cap are removed from the nanowire cores. A gate stack is formed that surrounds at least a portion of each of the nanowire cores and the epitaxial sidewalls.
摘要:
A memory device includes a first nanowire connected to a first bit line node and a ground node, a first field effect transistor (FET) having a gate disposed on the first nanowire, a second FET having a gate disposed on the first nanowire, a second nanowire connected to a voltage source node and a first input node, a third FET having a gate disposed on the second nanowire, a third nanowire connected to the voltage source node and a second input node, a fourth FET having a gate disposed on the third nanowire, a fourth nanowire connected to a second bit line node and the ground node, a fifth FET having a gate disposed on the fourth nanowire, and a sixth FET having a gate disposed on the fourth nanowire.