Patent ID: 8664076

Claim:
A method of forming a Metal Insulator Metal (MIM) capacitor structure to improve capacitance density, the method comprising: forming a doped polysilicon layer on an underlying dielectric layer; forming a dielectric stack of either plasma enhanced tetraethylorthosilicate (PETEOS) or borophosphosilicate glass (BPSG) on the doped polysilicon layer; planarizing the dielectric stack using chemical mechanical polishing (CMP); forming a contact hole in the dielectric stack to expose a surface region of the doped polysilicon layer; sequentially depositing a first Ti liner layer and a first TiN barrier layer, wherein the first Ti liner layer is in contact with the doped polysilicon layer; depositing a Tungsten layer over the first TiN barrier layer, wherein the Tungsten layer fills the contact hole; planarizing the Tungsten layer, the first TiN barrier and the first Ti liner layers to remove the Tungsten, the first TiN barrier and the first Ti liner layers from non-contact areas, stopping on the upper surface of the dielectric stack to define a Tungsten plug that fills the contact hole; forming a plurality of trenches, having a pitch, bottoms and sidewalls, in the dielectric stack such that each of the plurality of trenches exposes a corresponding surface region of the doped polysilicon layer and each trench of the plurality of trenches has substantially vertical sidewalls, wherein the pitch of the trenches determines the density improvement obtained by creation of the trench structure; sequentially depositing a second Ti liner layer and a second TiN barrier layer over the exposed surfaces of the dielectric stack and on exposed surfaces of the doped polysilicon layer wherein the second Ti liner layer and the second TiN barrier layer and the underlying doped polysilicon layer form a bottom plate of the MIM capacitor; depositing a capacitor dielectric layer on the bottom plate of the MIM capacitor; removing the capacitor dielectric layer from non-capacitor areas; performing a rapid thermal anneal (RTA) to form a Titanium Silicide at the contacts where the titanium reacts with the doped polysilicon layer to form a TiSi 2 film and a polycide film where the Titanium reacts with polysilicon; depositing a layer of conductive metal, composed of AlCu to form a conductive top capacitor plate on the capacitor dielectric layer; and masking and etching the layer of conductive metal to define the MIM capacitor.