An apparatus for bonding a first substrate to a second substrate includes a heatable mounting stage configured to accommodate a first semiconductor substrate on an upward-facing surface and a first stack of semiconductor materials on the first semiconductor substrate; a heatable bond head configured to accommodate a second semiconductor substrate on a downward-facing surface and a second stack of semiconductor materials on the second semiconductor substrate; and a collet disposed on the downward-facing surface of the heatable bond head and configured to receive the second semiconductor substrate and the second stack of semiconductor materials. The heatable bond head is configured to have a vacuum applied thereto to deformably accommodate the second semiconductor substrate and the second stack of semiconductor materials against the collet. The heatable bond head is configured to be pressed against the heatable mounting stage to bond the semiconductor materials.

Representative implementations provide techniques and systems for processing integrated circuit (IC) dies. Dies being prepared for intimate surface bonding (to other dies, to substrates, to another surface, etc.) may be processed with a minimum of handling, to prevent contamination of the surfaces or the edges of the dies. The techniques include processing dies while the dies are on a dicing sheet or other device processing film or surface. Systems include integrated cleaning components arranged to perform multiple cleaning processes simultaneously.

Semiconductor devices are provided in which a first semiconductor device is bonded to a second semiconductor device. The bonding may occur at a gate level, a gate contact level, a first metallization layer, a middle metallization layer, or a top metallization layer of either the first semiconductor device or the second semiconductor device.

Semiconductor devices are provided in which a first semiconductor device is bonded to a second semiconductor device. The bonding may occur at a gate level, a gate contact level, a first metallization layer, a middle metallization layer, or a top metallization layer of either the first semiconductor device or the second semiconductor device.

Representative implementations provide techniques and systems for processing integrated circuit (IC) dies. Dies being prepared for intimate surface bonding (to other dies, to substrates, to another surface, etc.) may be processed with a minimum of handling, to prevent contamination of the surfaces or the edges of the dies. The techniques include processing dies while the dies are on a dicing sheet or other device processing film or surface. Systems include integrated cleaning components arranged to perform multiple cleaning processes simultaneously.

Alignment systems, and wafer bonding alignment systems and methods are disclosed. In some embodiments, an alignment system for a wafer bonding system includes means for monitoring an alignment of a first wafer and a second wafer, and means for adjusting a position of the second wafer. The alignment system includes means for feeding back a relative position of the first wafer and the second wafer to the means for adjusting the position of the second wafer before and during a bonding process for the first wafer and the second wafer.

Alignment systems, and wafer bonding alignment systems and methods are disclosed. In some embodiments, an alignment system for a wafer bonding system includes means for monitoring an alignment of a first wafer and a second wafer, and means for adjusting a position of the second wafer. The alignment system includes means for feeding back a relative position of the first wafer and the second wafer to the means for adjusting the position of the second wafer before and during a bonding process for the first wafer and the second wafer.

Representative techniques provide process steps for forming a microelectronic assembly, including preparing microelectronic components such as dies, wafers, substrates, and the like, for bonding. One or more surfaces of the microelectronic components are formed and prepared as bonding surfaces. The microelectronic components are stacked and bonded without adhesive at the prepared bonding surfaces.

Representative techniques provide process steps for forming a microelectronic assembly, including preparing microelectronic components such as dies, wafers, substrates, and the like, for bonding. One or more surfaces of the microelectronic components are formed and prepared as bonding surfaces. The microelectronic components are stacked and bonded without adhesive at the prepared bonding surfaces.

Alignment systems, and wafer bonding alignment systems and methods are disclosed. In some embodiments, an alignment system for a wafer bonding system includes means for monitoring an alignment of a first wafer and a second wafer, and means for adjusting a position of the second wafer. The alignment system includes means for feeding back a relative position of the first wafer and the second wafer to the means for adjusting the position of the second wafer before and during a bonding process for the first wafer and the second wafer.