Abstract: A method of fabricating a semiconductor device includes forming a first layer over a substrate and forming a second layer over the first layer. The method further includes patterning the second layer into a mask having one or more openings that expose portions of the first layer. The method further includes etching the first layer through the one or more openings via a first etching process, resulting in a patterned first layer. The first etching process includes forming a coating layer around both the mask and the patterned first layer while the first layer is being etched.

Abstract: A method of fabricating a semiconductor device includes forming a first layer over a substrate and forming a second layer over the first layer. The method further includes patterning the second layer into a mask having one or more openings that expose portions of the first layer. The method further includes etching the first layer through the one or more openings via a first etching process, resulting in a patterned first layer. The first etching process includes forming a coating layer around both the mask and the patterned first layer while the first layer is being etched.

Abstract: A method of patterning a semiconductor device using a tri-layer photoresist is disclosed. A material layer is formed over a substrate. A tri-layer photoresist is formed over the material layer. The tri-layer photoresist includes a bottom layer, a middle layer disposed over the bottom layer, and a photo-sensitive layer disposed over the middle layer. A lithography process is performed to pattern the photo-sensitive layer into a mask having one or more openings. Undesired portions of the mask are removed via a first etching process. Thereafter, the middle layer is patterned via a second etching process. The second etching process includes forming a coating layer around the mask while the middle layer is being etched. In some embodiments, the second etching process includes a continuous plasma etching process. The plasma etching process is performed using at least a CxHyFz gas and an H2 gas.

Abstract: A method of patterning a semiconductor device using a tri-layer photoresist is disclosed. A material layer is formed over a substrate. A tri-layer photoresist is formed over the material layer. The tri-layer photoresist includes a bottom layer, a middle layer disposed over the bottom layer, and a photo-sensitive layer disposed over the middle layer. A lithography process is performed to pattern the photo-sensitive layer into a mask having one or more openings. Undesired portions of the mask are removed via a first etching process. Thereafter, the middle layer is patterned via a second etching process. The second etching process includes forming a coating layer around the mask while the middle layer is being etched. In some embodiments, the second etching process includes a continuous plasma etching process. The plasma etching process is performed using at least a CxHyFz gas and an H2 gas.