Embodiments of the present disclosure relate to methods for forming a package structure. The method includes depositing a first layer on a front side of a wafer and a second layer on a backside of the wafer, depositing a third layer on the first layer and a fourth layer on the second layer, depositing an etch stop layer on the third layer, depositing a fifth layer on the etch stop layer and a sixth layer on the fourth layer, removing the fifth layer by a first process, and removing the etch stop layer by a second process.

A microelectronic structure with through substrate vias (TSVs) and method for forming the same is disclosed. The microelectronic structure can include a bulk semiconductor with a via structure. The via structure can have a first and second conductive portion. The via structure can also have a barrier layer between the first conductive portion and the bulk semiconductor. The structure can have a second barrier layer between the first and second conductive portions. The second conductive portion can extend from the second barrier layer to the upper surface of the bulk semiconductor. The microelectronic structure containing TSVs is configured so that the microelectronic structure can be bonded to a second element or structure.

A microelectronic structure with through substrate vias (TSVs) and method for forming the same is disclosed. The microelectronic structure can include a bulk semiconductor with a via structure. The via structure can have a first and second conductive portion. The via structure can also have a barrier layer between the first conductive portion and the bulk semiconductor. The structure can have a second barrier layer between the first and second conductive portions. The second conductive portion can extend from the second barrier layer to the upper surface of the bulk semiconductor. The microelectronic structure containing TSVs is configured so that the microelectronic structure can be bonded to a second element or structure.