摘要:
An integrated circuit contact system is provided including forming a contact plug in a dielectric and forming a first barrier layer in a trench in the dielectric and on the contact plug. Further, the system includes removing a portion of the first barrier layer from the bottom of the first barrier layer and depositing the portion of the first barrier layer on the sidewall of the first barrier layer, and forming a second barrier layer over the first barrier layer and filling a corner area of the trench.
摘要:
Nickel film formation is implemented by heating a deposition chamber during deposition of nickel on a substrate or between processing of two or more substrates or both. Embodiments include forming a nickel silicide on a composite having an exposed silicon surface by introducing the substrate to a PVD chamber having at least one heating element for heating the chamber and depositing a layer of nickel directly on the exposed silicon surface of the composite while concurrently heating the chamber with the heating element.
摘要:
Bridging between nickel suicide layers on a gate electrode and source/drain regions along silicon nitride sidewall spacers is prevented by treating the exposed surfaces of the silicon nitride sidewall spacers with a nitrogen plasma to create a surface region having reduced free silicon. Embodiments include treating the silicon nitride sidewall spacers with a nitrogen plasma to reduce the refractive index of the surface region to less than about 1.95.
摘要:
A manufacturing method, and an integrated circuit resulting therefrom, has a substrate and a semiconductor device thereon. A stop layer over the substrate has a first dielectric layer formed thereon having an opening into which a first conformal barrier is formed. A first conformal barrier liner is formed in the opening, processed, and treated to improve adhesion. Portions of the first conformal barrier liner on the sidewalls act as a barrier to diffusion of conductor core material to the first dielectric layer. A conductor material is formed in the opening over the vertical portions of the first conformal barrier liner and the first stop layer.
摘要:
An integrated circuit and manufacturing method therefor is provided having a semiconductor substrate with a semiconductor device and a device dielectric layer formed on the semiconductor substrate. A channel dielectric layer on the device dielectric layer has a channel opening and a conductor core filling the channel opening. A via stop layer is formed over the channel dielectric layer to have a hydrogen concentration below 15 atomic % and a via dielectric layer is formed over the via stop layer and has a via opening. A second channel dielectric layer over the via dielectric layer has a second channel opening. A second conductor core, filling the second channel opening and the via opening, is connected to the semiconductor device.
摘要:
Improved etch selectivity, barrier metal wetting and reduced interconnect capacitance are achieved by implementing damascene processing employing a graded middle etch stop layer comprising a first silicon carbide layer, a silicon-rich layer on the first silicon carbide, and a second silicon carbide layer on the silicon-rich layer. Embodiments include sequentially depositing a porous low-k dielectric layer over a lower capped Cu line, depositing the graded middle-etch stop layer, depositing a porous low-k dielectric layer on the graded middle-etch stop layer, forming a dual damascene opening exposing the silicon-rich surface at the bottom of the trench opening, depositing a seed layer, depositing a barrier middle layer, such as Ta or a Ta/TaN composite, and filling the opening with Cu.
摘要:
A MOSFET semiconductor device includes a substrate, a gate electrode, a gate oxide. first and second sets of sidewall spacers and nickel suicide layers. The gate oxide is disposed between the gate electrode and the substrate, and the substrate includes source/drain regions. The gate electrode has first and second opposing sidewalls, and the first set of sidewall spacers are formed undoped silicon oxide and are respectively disposed adjacent the first and second sidewalls. The second set of sidewall spacers are formed from silicon nitride and are respectively disposed adjacent the first set of sidewall spacers. The nickel silicide layers are disposed on the source/drain regions and the gate electrode. The second set of sidewall spacers being formed from undoped silicon oxide prevents the formation of nickel silicide on the second set of sidewall spacers. A method of manufacturing the semiconductor device is also disclosed.
摘要:
A semiconductor device and method for manufacturing the semiconductor device employing mixed metal silicide technology is disclosed. A semiconductor device is provided having a doped silicon region, such as a source/drain. A first metal layer comprising titanium and a second metal layer comprising nickel are deposited over the semiconductor device. The device is subjected to rapid thermal annealing. The resulting device has a mixed metal silicide layer over the doped silicon region, the mixed metal silicide layer and the doped silicon region having smooth interface between them.
摘要:
An integrated circuit and manufacturing method therefor is provided having a semiconductor substrate with a semiconductor device. A device dielectric layer is formed on the semiconductor substrate. A first dielectric layer on the device dielectric layer has an opening formed therein including a conductor reservoir volume. A barrier layer lines the channel opening. A conductor core fills the opening over the barrier layer. A second dielectric layer is formed on the first dielectric layer and has a second channel and via opening provided therein. A barrier layer lines the second channel and via opening except over the first channel opening. A conductor core fills the second channel and via opening over the barrier layer and the first conductor core to form the second channel and via. The conductor reservoir volume provides a supply of conductor material to prevent the formation of voids in the first channel and in the via.
摘要:
A method for manufacturing a semiconductor device employing mixed metal silicide technology is disclosed. The method comprises providing a semiconductor device having a doped silicon region, such as a source/drain, sequentially layering a first metal comprising cobalt, and a second layer comprising nickel over the semiconductor device, and subjecting the device to rapid thermal annealing. The resulting device has a mixed metal silicide layer overtop the doped silicon region, wherein the mixed metal silicide layer and the doped silicon region form a smooth boundary between them.