Abstract: The described method enables removal of any flexible material from a temporary carrier for transfer to another surface. In particular, a semiconductor wafer is commonly held by a temporary adhesive to a carrier substrate for support during a variety of processing steps, including thinning of the semiconductor device layer. Subsequent to processing, the described method attaches the ultra-thin device layer to a roll of tape for removal from the temporary adhesive, followed by transfer to a demount roller, which then releases it onto a desired permanent surface. Utilizing the flexible nature of the ultra-thin device layer, the sequence of rollers is able to peel it from the temporary adhesive without any need for laser release processing or chemical adhesive removal while maintaining the thinned wafer in a planar form during processing. This transfer supports operations that include a change of orientation, such as from face up to face down.

Abstract: A method for selectively removing material from a substrate without damage to copper filling a via and extending at least partially through the substrate. The method comprises oxidizing a semiconductor structure comprising a substrate and at least one copper feature and removing a portion of the substrate using an etchant comprising SF6 without forming copper sulfide on the at least one copper feature. Additional methods are also disclosed, as well as semiconductor structures produced from such methods.

Abstract: A method for selective removing material from a substrate without damage to copper filling a via and extending at least partially through the substrate. The method comprises oxidizing a semiconductor structure comprising a substrate and at least one copper feature and removing a portion of the substrate using an etchant comprising SF6 without forming copper sulfide on the at least one copper feature. Additional methods are also disclosed, as well as semiconductor structures produced from such methods.

Abstract: A method for selective removing material from a substrate without damage to copper filling a via and extending at least partially through the substrate. The method comprises oxidizing a semiconductor structure comprising a substrate and at least one copper feature and removing a portion of the substrate using an etchant comprising SF6 without forming copper sulfide on the at least one copper feature. Additional methods are also disclosed, as well as semiconductor structures produced from such methods.

Abstract: A method for selective removing material from a substrate without damage to copper filling a via and extending at least partially through the substrate. The method comprises oxidizing a semiconductor structure comprising a substrate and at least one copper feature and removing a portion of the substrate using an etchant comprising SF6 without forming copper sulfide on the at least one copper feature. Additional methods are also disclosed, as well as semiconductor structures produced from such methods.

Abstract: Some embodiments include semiconductor constructions. The constructions have an electrically conductive post extending through a semiconductor die. The post has an upper surface above a backside surface of the die, and has a sidewall surface extending between the backside surface and the upper surface. A photosensitive material is over the backside surface and along the sidewall surface. Electrically conductive material is directly against the upper surface of the post. The electrically conductive material is configured as a cap over the post. The cap has an edge that extends laterally outwardly beyond the post and encircles the post. An entirety of the edge is directly over the photosensitive material.

Abstract: Methods and systems for removing protective films from microfeature workpieces are disclosed herein. One particular embodiment of such a method comprises separating at least a portion of a protective tape from a workpiece to which the protective tape is attached with a separator configured to drive against an interface between the protective tape and the workpiece. The method further includes engaging the portion of the protective tape detached from the workpiece with a removal system.