Abstract: An integrated circuit includes a semiconducting substrate (110), electrically conductive layers (120) over the semiconducting substrate, and a capacitor (130) at least partially embedded within the semiconducting substrate such that the capacitor is entirely underneath the electrically conductive layers. A storage node voltage is on an outside layer (132) of the capacitor. In the same or another embodiment, the integrated circuit may act as a 1T-1C embedded memory cell including the semiconducting substrate, an electrically insulating stack (160) over the semiconducting substrate, a transistor (140) including a source/drain region (142) within the semiconducting substrate and a gate region (141) above the semiconducting substrate, a trench (111) extending through the electrically insulating layers and into the semiconducting substrate, a first electrically insulating layer (131) located within the trench, and the capacitor located within the trench interior to the first electrically insulating layer.

Abstract: A method of patterning a metal (141, 341, 841) on a vertical sidewall (132, 332, 832) of an excavated feature (130, 330, 830) includes placing a material (350) in the excavated feature such that a portion (435) of the metal is exposed in the excavated feature above the material, etching the exposed portion of the metal away from the vertical sidewall using a first wet etch chemistry, and removing the material from the excavated feature by etching it away using a second wet etch chemistry. The described method may be used to produce a MIM capacitor (800) suitable for an eDRAM device.