Abstract: A method for forming a semiconductor structure having devices formed on both sides. A first substrate and a second substrate are provided. The first substrate is preferably comprised of Ge. The second substrate is preferably comprised of silicon. We form a first dielectric layer over the first substrate. We form a first insulating layer over the second substrate. We bond the first dielectric layer and the first dielectric layer to form a first structure. The first structure comprised of the first substrate, an insulation layer (combined first dielectric and first insulating layers) and the second substrate. We reduce the thickness of the first substrate. We form via plugs through the first substrate and the insulation layer and at least partially through the second substrate. We form first active devices on the surface of the first substrate. We form a first capping layer over the first active devices and the first substrate. We reduce the thickness of the second substrate to expose the via plugs.

Abstract: A method for connecting a microelectronic device to a wirebond comprises providing a substrate having a microelectronic circuit therein and forming a wiring layer over the substrate. The wiring layer includes a bilayer wiring structure comprising upper and lower electrically conductive layers separated by a protective electrically conductive layer. The lower layer of the bilayer structure is at the level of the wiring layer and the upper layer of the bilayer structure extends above the level of the wiring layer. The bilayer wiring structure is formed by depositing the upper and lower electrically conductive layers separated by a protective electrically conductive layer over the substrate, etching the upper electrically conductive layer and a portion of the protective electrically conductive layer, and thereafter separately etching the lower electrically conductive layer to form the wiring layer over the substrate. The method also includes connecting a wirebond to the upper layer of the bilayer structure.

Abstract: Disclosed are various embodiments of a method of forming vias for backside connections in a wafer stack, wherein the vias are formed by non-thermal laser ablation. Other embodiments are described an claimed.