A semiconductor device includes a substrate including a cell area having a first active region and a peripheral circuit area having a second active region, a direct contact contacting the first active region in the cell area, a bit line structure disposed on the direct contact, a capacitor structure electrically connected to the first active region, a gate structure disposed on the second active region in the peripheral circuit area, lower wiring layers disposed adjacent to the gate structure and electrically connected to the second active region, upper wiring layers disposed on the lower wiring layers, a wiring insulating layer disposed between the lower wiring layers and the upper wiring layers, and upper contact plugs connected to at least one of the lower wiring layers and the upper wiring layers and extending through the wiring insulating layer.

An integrated circuit includes a dielectric isolation structure formed at a surface of a semiconductor substrate and a polysilicon resistor body formed on the dielectric isolation structure. The polysilicon resistor body includes an N-type dopant having an N-type dopant concentration, nitrogen having a nitrogen concentration, and carbon having a carbon concentration. The sheet resistance of the resistor body is greater than 5 kΩ/square.

A semiconductor device includes passive electrical components in a substrate; and an interconnect structure over the passive electrical components, conductive features of the interconnect structure being electrically coupled to the passive electrical components. The conductive features of the interconnect structure includes a first conductive line over the substrate; a conductive bump over the first conductive line, where in a plan view, the conductive bumps has a first elongated shape and is entirely disposed within boundaries of the first conductive line; and a first via between the first conductive line and the conductive bump, the first via electrically connected to the first conductive line and the conductive bump, where in the plan view, the first via has a second elongated shape and is entirely disposed within boundaries of the conductive bump.

Described herein are metal compounds and methods of fabricating semiconductor devices using the same. The metal compounds include a material of Chemical Formula 1. ##STR00001##

A semiconductor device includes a landing pad on a substrate, a lower electrode on the landing pad and connected to the landing pad, the lower electrode including an outer portion, the outer portion including first and second regions, and an inner portion inside the outer portion, a dielectric film on the lower electrode to extend along the first region of the outer portion, and an upper electrode on the dielectric film, wherein the outer portion of the lower electrode includes a metal dopant, a concentration of the metal dopant in the first region of the outer portion being different from a concentration of the metal dopant in the second region of the outer portion.

A semiconductor device includes: a substrate; a first dielectric layer over the substrate; a memory cell over the substrate in a first region of the semiconductor device, where the memory cell includes a first ferroelectric structure in the first dielectric layer, where the first ferroelectric structure includes a first bottom electrode, a first top electrode, and a first ferroelectric layer in between; and a tunable capacitor over the substrate in a second region of the semiconductor device, where the tunable capacitor includes a second ferroelectric structure, where the second ferroelectric structure includes a second bottom electrode, a second top electrode, and a second ferroelectric layer in between, where at least a portion of the second ferroelectric structure is in the first dielectric layer.

A device may include a substrate, and an interlevel dielectric arranged over the substrate. The interlevel dielectric may include a first interlevel dielectric layer in an interconnect level i, the first interlevel dielectric layer having a first interconnect and a second interconnect therein. A nitride block insulator may be arranged over the first interlevel dielectric layer and over the first interconnect and the second interconnect. An opening may be arranged in the nitride block insulator, the opening extending through the nitride block insulator to expose a surface of the first interconnect in the first interlevel dielectric layer. A contact plug may be arranged in the opening of the nitride block insulator. The contact plug at least lines the opening and prevents out-diffusion of conductive material from the first interconnect. A thin film of a passive component may be arranged over the nitride block insulator and over the contact plug.

A capacitor structure that includes a silicon substrate having a trench structure formed therein; a dielectric disposed over a surface of the trench structure, conformal to the surface of the trench structure; and a filling layer disposed over the dielectric layer and into the trench structure, the filling layer including a conductive layer and a polymer layer.

Microelectronic assemblies, related devices and methods, are disclosed herein. In some embodiments, a microelectronic assembly may include a die in a first dielectric layer; and a capacitor including a first conductive pillar and a second conductive pillar in the first dielectric layer, each pillar having a first end and an opposing second end, where the first and second conductive pillars form a first plate of the capacitor; a second dielectric layer on the die and on the second end of the first and second conductive pillars extending at least partially along a first thickness of the first and second conductive pillars and tapering from the second end towards the first end; and a metal layer on the second dielectric layer, wherein the metal layer extends at least partially along a second thickness of the first and second conductive pillars, where the metal layer forms a second plate of the capacitor.

A semiconductor device includes a first device over a substrate, wherein the first device includes a gate stack including a gate electrode material; a source/drain region in the substrate adjacent the gate stack; a first isolation region surrounding the gate stack; a gate contact over and contacting the gate stack, wherein the gate contact includes a gate contact material; and a second isolation region surrounding the gate contact; and a second device over the substrate, wherein the second device includes a first parallel capacitor including first electrodes, wherein the first electrodes include the gate electrode material, wherein the first isolation region separates the first electrodes; and a second parallel capacitor over the first parallel capacitor, wherein the second parallel capacitor includes second electrodes connected to the first electrodes, wherein the second electrodes include the gate contact material, wherein adjacent second electrodes are separated by the second isolation region.