A method for forming a patterned mask layer is provided. The method includes forming a first layer over a substrate. The method includes forming a first strip structure and a second strip structure over the first layer. The method includes forming a spacer layer conformally covering the first strip structure, the second strip structure, and the first layer. The method includes forming a block structure in the first trench. The method includes removing a first portion of the spacer layer, which is under the first trench and not covered by the block structure, and a second portion of the spacer layer, which is over the first strip structure and the second strip structure. The method includes forming a third strip structure in the second trench and the third trench. The method includes removing the block structure. The method includes removing the spacer layer.

A method for forming a patterned mask layer is provided. The method includes forming a first layer over a substrate. The method includes forming a first strip structure and a second strip structure over the first layer. The method includes forming a spacer layer conformally covering the first strip structure, the second strip structure, and the first layer. The method includes forming a block structure in the first trench. The method includes removing a first portion of the spacer layer, which is under the first trench and not covered by the block structure, and a second portion of the spacer layer, which is over the first strip structure and the second strip structure. The method includes forming a third strip structure in the second trench and the third trench. The method includes removing the block structure. The method includes removing the spacer layer.

Methods of forming fins include masking a region on a three-color hardmask fin pattern, leaving a fin of a first color exposed. The exposed fin of the first color is etched away with a selective etch that does not remove fins of a second color or a third color. The mask and all fins of a second color are etched away. Fins are etched into a fin base layer using the fins of the first color and the fins of the third color.

A method for forming a patterned mask layer is provided. The method includes forming a layer over a substrate. The method includes forming a first strip structure and a second strip structure over the layer. The method includes forming a spacer layer over the first strip structure, the second strip structure, and the layer. The method includes forming a third strip structure and a fourth strip structure between the first strip part and the second strip part. The connecting part is between the third strip structure and the fourth strip structure. The method includes removing the spacer layer. The first strip structure, the second strip structure, the third strip structure, and the fourth strip structure together form a patterned mask layer.

A display device including a semiconductor element is provided. The semiconductor element includes: a semiconductor having an active layer; a gate insulating film which is in contact with the semiconductor, a gate electrode opposite to the active layer through the gate insulating film; a first nitride insulating film formed over the active layer; a photosensitive organic resin film formed on the first nitride insulating film; a second nitride insulating film formed on the photosensitive organic resin film; and a wiring provided on the second nitride insulating film, in which a first opening portion is provided in the photosensitive organic resin film, an inner wall surface of the first opening portion is covered with the second nitride insulating film, a second opening portion is provided in a laminate including the gate insulating film, the first nitride insulating film, and the second nitride insulating film inside the first opening portion, and the semiconductor is connected with the wiring through the first opening portion and the second opening portion.

A display device including a semiconductor element is provided. The semiconductor element includes: a semiconductor having an active layer; a gate insulating film which is in contact with the semiconductor; a gate electrode opposite to the active layer through the gate insulating film; a first nitride insulating film formed over the active layer; a photosensitive organic resin film formed on the first nitride insulating film; a second nitride insulating film formed on the photosensitive organic resin film; and a wiring provided on the second nitride insulating film, in which a first opening portion is provided in the photosensitive organic resin film, an inner wall surface of the first opening portion is covered with the second nitride insulating film, a second opening portion is provided in a laminate including the gate insulating film, the first nitride insulating film, and the second nitride insulating film inside the first opening portion, and the semiconductor is connected with the wiring through the first opening portion and the second opening portion.

Methods of forming fins include masking a region on a three-color hardmask fin pattern, leaving a fin of a first color exposed. The exposed fin of the first color is etched away with a selective etch that does not remove fins of a second color or a third color. The mask and all fins of a second color are etched away. Fins are etched into a fin base layer using the fins of the first color and the fins of the third color.

A display device including a semiconductor element is provided. The semiconductor element includes: a semiconductor having an active layer; a gate insulating film which is in contact with the semiconductor; a gate electrode opposite to the active layer through the gate insulating film; a first nitride insulating film formed over the active layer; a photosensitive organic resin film formed on the first nitride insulating film; a second nitride insulating film formed on the photosensitive organic resin film; and a wiring provided on the second nitride insulating film, in which a first opening portion is provided in the photosensitive organic resin film, an inner wall surface of the first opening portion is covered with the second nitride insulating film, a second opening portion is provided in a laminate including the gate insulating film, the first nitride insulating film, and the second nitride insulating film inside the first opening portion, and the semiconductor is connected with the wiring through the first opening portion and the second opening portion.

Methods of forming fins include masking a region on a three-color hardmask fin pattern, leaving a fin of a first color exposed. The exposed fin of the first color is etched away with a selective etch that does not remove fins of a second color or a third color. The mask and all fins of a second color are etched away. Fins are etched into a fin base layer using the fins of the first color and the fins of the third color.

Self-assembling materials, such as block copolymers, are used as mandrels for pitch multiplication. The copolymers are deposited over a substrate and directed to self-assemble into a desired pattern. One of the blocks forming the block copolymers is selectively removed. The remaining blocks are used as mandrels for pitch multiplication. Spacer material is blanket deposited over the blocks. The spacer material is subjected to a spacer etch to form spacers on sidewalls of the mandrels. The mandrels are selectively removed to leave free-standing spacers. The spacers may be used as pitch-multiplied mask features to define a pattern in an underlying substrate.