Abstract: Described herein are ferroelectric (FE) memory cells that include transistors having gate stacks separate from FE capacitors of these cells. An example memory cell may be implemented as an IC device that includes a support structure (e.g., a substrate) and a transistor provided over the support structure and including a gate stack. The IC device also includes a FE capacitor having a first capacitor electrode, a second capacitor electrode, and a capacitor insulator of a FE material between the first capacitor electrode and the second capacitor electrode, where the FE capacitor is separate from the gate stack (i.e., is not integrated within the gate stack and does not have any layers that are part of the gate stack). The IC device further includes an interconnect structure, configured to electrically couple the gate stack and the first capacitor electrode.

Abstract: A method includes depositing a first work-function layer and a second work-function layer in a first device region and a second device region, respectively, and depositing a first fluorine-blocking layer and a second fluorine-blocking layer in the first device region and the second device region, respectively. The first fluorine-blocking layer is over the first work-function layer, and the second fluorine-blocking layer is over the second work-function layer. The method further includes removing the second fluorine-blocking layer, and forming a first metal-filling layer over the first fluorine-blocking layer, and a second metal-filling layer over the second work-function layer.

Abstract: A method for forming a capacitor on a substrate is disclosed herein. The method according to the present invention can increase the capacitance of a capacitor in one interface-etching process, the method mention above includes the following step. The first step is to form a storage node in a dielectric layer on the substrate, wherein the bottom of a cubic portion of the storage node faces the substrate is buried in the dielectric layer, and the storage node is coupled to the substrate. Next, interface-etching the dielectric layer to expose the surface including the bottom of the cubic portion of the storage node. In etching the dielectric layer made of BPSG, the buffer oxide etching (B.O.E) is utilized. Then an insulating layer is formed on the exposed surface including the bottom of the cubic portion of the storage node. Finally, a conductive layer is formed on the insulating layer. The storage node, the insulating layer, and the conductive layer constitute the capacitor.

Abstract: The present invention discloses a method for eliminating leakage current in a semiconductor device by preventing silicon loss in a first area of a substrate during fabricating the semiconductor device. The method according to the preferred embodiment of the present invention includes the following steps. Firstly, form a first gate structure on a second area of the substrate, and form a first structure together with a second structure on the first area of the substrate. Then form a dielectric layer on the topography of the wafer. Next, etch a thickness of the dielectric layer until about 200-1000 angstroms in thickness of the dielectric layer is remained. Subsequently, form a photoresist pattern on the first area of the substrate, and etch the exposed second portion of the dielectric layer to form spacers of the first gate structure. The spacers and the gate structure constitute a gate electrode of a first transistor.

Abstract: A method for avoiding micro-loading effect during etching is disclosed. The method comprises the steps of: providing a semiconductor substrate with a layer to be patterned and etched formed thereover; forming a masking layer over the layer to be patterned; defining a row pattern in the masking layer, the row pattern comprising a plurality of rectangles and a plurality of connecting bars, each of the connecting bars connecting two of the rectangles; and removing a portion of the layer to be patterned, to form a patterned layer with a recessed channel, by using the masking layer as a mask with the row pattern.