Abstract: This disclosure relates to a post-etch treating method. An opening is formed by etching a stacked structure of a dielectric layer, an intermediate layer and a metal hard mask layer arranged in order from bottom to top. The treating method sequentially comprises steps of: performing a first cleaning process on the stacked structure with the opening so as to remove at least a part of the metal hard mask layer; and performing a second cleaning process on the stacked structure with the opening so as to remove etching residues.

Abstract: The present invention discloses a phase change memory and a manufacturing method thereof. The phase change memory according to the present invention uses top electrodes provided on the top of storage nodes to heat the storage nodes such that a phase change layer in the storage nodes undergoes a phase change. In the phase change memory of embodiments of the present invention, the contact area between the top electrode and the storage node is relatively small, which is good for phase change. Moreover, each column of storage nodes is connected by the same linear top electrode, which can improve photo alignment shift margin.

Abstract: The present invention discloses a method of manufacturing a semiconductor device. In order to form a trench with a smaller width, patterns of various monomers are formed by utilizing self-assembly characteristics of a block copolymer comprising various monomers. A metal or metal nitride is deposited on a surface of the block copolymer, the metal or metallic nitride selectively depositing due to a preferential chemical affinity between various monomers and the metal or metal nitride. After reaching a certain thickness, the metal or metal nitride layer begins to grow laterally. Deposition can be stopped by controlling deposition time so that the metal or metal nitride layer grows laterally but does not completely cover the surface of the block copolymer. Etching is then conducted using the metal or metal nitride layer as a mask to obtain a trench with a very small width.

Abstract: The present invention discloses a method of fabricating a semiconductor device. In the present invention, after the formation of a photo-resist mask on a substrate, the photo-resist is subjected to a plasma pre-treatment, and then etch is conducted. With the plasma pre-treatment, a line width roughness of a linear pattern of the photo-resist can be improved, and thus much better linear patterns can be formed on the substrate during the subsequent etching steps.

Abstract: This disclosure relates to a post-etch treating method. An opening is formed by etching a stacked structure of a dielectric layer, an intermediate layer and a metal hard mask layer arranged in order from bottom to top. The treating method sequentially comprises steps of: performing a first cleaning process on the stacked structure with the opening so as to remove at least a part of the metal hard mask layer; and performing a second cleaning process on the stacked structure with the opening so as to remove etching residues.

Abstract: The present invention discloses a method of fabricating a semiconductor device. In the present invention, after the formation of a photo-resist mask on a substrate, the photo-resist is subjected to a plasma pre-treatment, and then etch is conducted. With the plasma pre-treatment, a line width roughness of a linear pattern of the photo-resist can be improved, and thus much better linear patterns can be formed on the substrate during the subsequent etching steps.

Abstract: The present invention discloses a method of manufacturing a semiconductor device. In order to form a trench with a smaller width, patterns of various monomers are formed by utilizing self-assembly characteristics of a block copolymer comprising various monomers. A metal or metal nitride is deposited on a surface of the block copolymer, the metal or metallic nitride selectively depositing due to a preferential chemical affinity between various monomers and the metal or metal nitride. After reaching a certain thickness, the metal or metal nitride layer begins to grow laterally. Deposition can be stopped by controlling deposition time so that the metal or metal nitride layer grows laterally but does not completely cover the surface of the block copolymer. Etching is then conducted using the metal or metal nitride layer as a mask to obtain a trench with a very small width.