A method for applying a bonding layer that is comprised of a basic layer and a protective layer on a substrate with the following method steps: application of an oxidizable basic material as a basic layer on a bonding side of the substrate, at least partial covering of the basic layer with a protective material that is at least partially dissolvable in the basic material as a protective layer. In addition, the invention relates to a corresponding substrate.

A microelectronic assembly includes a stack of semiconductor chips each having a front surface defining a respective plane of a plurality of planes. A chip terminal may extend from a contact at a front surface of each chip in a direction towards the edge surface of the respective chip. The chip stack is mounted to substrate at an angle such that edge surfaces of the chips face a major surface of the substrate that defines a second plane that is transverse to, i.e., not parallel to the plurality of parallel planes. An electrically conductive material electrically connects the chip terminals with corresponding substrate contacts.

An apparatus, a semiconductor package including the apparatus and a method are disclosed. The apparatus includes a substrate, pluralities of vias disposed in the substrate. The vias are disposed in a hexagonal arrangement.

According to various embodiments, a method for manufacturing a semiconductor device may include providing a semiconductor workpiece including a device region at a first side of the semiconductor workpiece, wherein a mechanical stability of the semiconductor workpiece is insufficient to resist at least one back end process without damage, and depositing at least one conductive layer over a second side of the semiconductor workpiece opposite the first side of the semiconductor workpiece, wherein the at least one conductive layer increases the mechanical stability of the semiconductor workpiece to be sufficient to resist the at least one back end process without damage.