Methods and semiconductor devices for bonding a first semiconductor device to a second semiconductor device include forming metal pads including a textured microstructure having a columnar grain structure at substantially the same angular direction from the top surface to the bottom surface. The textured crystalline microstructures enables the use of low temperatures and low pressures to effect bonding of the metal pads. Also described are methods of packaging and semiconductor devices.

A method and device for bonding chips onto a substrate or onto further chips. The chips are bonded onto the substrate or the further chips by means of a direct bond.

A method and device for bonding chips onto a substrate or onto further chips. The chips are bonded onto the substrate or the further chips by means of a direct bond using a bond head having a first surface configured to couple to a chip that is to be bonded, and a second surface fixed to and disposed opposite the first surface. A first spring element having a first spring constant and a second spring element having a second spring constant are coupled to the second surface, where the first spring constant is different from the second spring constant.

A method for transferring a micro device is provided. The method includes: preparing a carrier substrate with the micro device thereon, wherein an adhesive layer is between and in contact with the carrier substrate and the micro device; picking up the micro-device from the carrier substrate by a transfer head; forming a liquid layer on a receiving substrate; and placing the micro device over the receiving substrate by the transfer head such that the micro device is in contact with the liquid layer and is gripped by a capillary force; and moving the transfer head away from the receiving substrate such that the micro device is detached from the transfer head and is stuck to the receiving substrate.

A method for transferring a micro device is provided. The method includes: preparing a carrier substrate with the micro device thereon, wherein an adhesive layer is present between and in contact with the carrier substrate and the micro device; picking up the micro-device from the carrier substrate by a transfer head; forming a liquid layer on a receiving substrate; and placing the micro device over the receiving substrate so that the micro device is in contact with the liquid layer and is gripped by a capillary force.

A method for transferring a micro device includes: preparing a carrier substrate with the micro device thereon in which an adhesive layer is present between and in contact with the carrier substrate and the micro device; picking up the micro-device from the carrier substrate by a transfer head comprising a force-adjustable glue layer thereon; forming a liquid layer on a receiving substrate; reducing the grip force of the force-adjustable glue layer of the transfer head to be smaller than a force attaching the micro device to the receiving substrate; placing the micro device over the receiving substrate such that the micro device is in contact with the liquid layer and is gripped by a capillary force; and moving the transfer head away from the receiving substrate such that the micro device is detached from the transfer head and is stuck to the receiving substrate.

A first substrate has a first mesa structure that protrudes from a first bonding-side planar surface. A first metal pad structure is embedded within the first mesa structure. A second substrate has a first recess cavity that is recessed from a second bonding-side planar surface. A second metal pad structure is located at a recessed region of the first recess cavity. The first bonding-side planar surface and the second bonding-side planar surface are brought into physical contact with each other, while the first mesa structure is disposed within a volume of the first recess cavity by self-alignment. A gap is provided between the first metal pad structure and the second metal pad structure within a volume of the first recess cavity. A metal connection pad is formed by selectively growing a third metallic material from the first metal pad structure and the second metal pad structure.

Methods and semiconductor devices for bonding a first semiconductor device to a second semiconductor device include forming metal pads including a textured microstructure having a columnar grain structure at substantially the same angular direction from the top surface to the bottom surface. The textured crystalline microstructures enables the use of low temperatures and low pressures to effect bonding of the metal pads. Also described are methods of packaging and semiconductor devices.

Hybrid bonding systems and methods for semiconductor wafers are disclosed. In one embodiment, a hybrid bonding system for semiconductor wafers includes a chamber and a plurality of sub-chambers disposed within the chamber. A robotics handler is disposed within the chamber that is adapted to move a plurality of semiconductor wafers within the chamber between the plurality of sub-chambers. The plurality of sub-chambers includes a first sub-chamber adapted to remove a protection layer from the plurality of semiconductor wafers, and a second sub-chamber adapted to activate top surfaces of the plurality of semiconductor wafers prior to hybrid bonding the plurality of semiconductor wafers together. The plurality of sub-chambers also includes a third sub-chamber adapted to align the plurality of semiconductor wafers and hybrid bond the plurality of semiconductor wafers together.

A liquid is supplied to a substrate and a chip component is arranged on the liquid. The substrate includes a first surface in which a rectangular mounting region is formed. The chip component includes a second surface having a rectangular shape which substantially coincides with the shape of the mounting region, and has an area substantially equal to that of the mounting region. The mounting region includes first and second regions. Wettability of the first region with respect to the liquid is higher than that of the second region with respect to the liquid. The first region is provided symmetrically with respect to a first central line passing through the middle of a pair of long sides and a second central line passing through the middle of a pair of short sides in the mounting region, and includes rectangular partial regions. The liquid is supplied to the first region.