A method of fabricating a semiconductor chip includes the following steps. A bonding material layer is formed on a first wafer substrate and is patterned to form a first bonding layer having a strength adjustment pattern. A semiconductor component layer and a first interconnect structure layer are formed on a second wafer substrate. The first interconnect structure layer is located. A second bonding layer is formed on the first interconnect structure layer. The second wafer substrate is bonded to the first wafer substrate by contacting the second bonding layer with the first bonding layer. A bonding interface of the second bonding layer and the first bonding layer is smaller than an area of the second bonding layer. A second interconnect structure layer is formed on the semiconductor component layer. A conductor terminal is formed on the second interconnect structure layer.

A method of fabricating a semiconductor chip includes the following steps. A bonding material layer is formed on a first wafer substrate and is patterned to form a first bonding layer having a strength adjustment pattern. A semiconductor component layer and a first interconnect structure layer are formed on a second wafer substrate. The first interconnect structure layer is located. A second bonding layer is formed on the first interconnect structure layer. The second wafer substrate is bonded to the first wafer substrate by contacting the second bonding layer with the first bonding layer. A bonding interface of the second bonding layer and the first bonding layer is smaller than an area of the second bonding layer. A second interconnect structure layer is formed on the semiconductor component layer. A conductor terminal is formed on the second interconnect structure layer.

A microelectronic assembly comprises a first microelectronic component; a second microelectronic component under an area of the first microelectronic component and coupled to the first component through first interconnect structures within a central region of the area, and second interconnect structures within a peripheral region of the area, adjacent to the central region. A heterogenous dielectric surface on the first or second component or both and within a gap between the first and second components has a first surface composition within the central region and at least a second surface composition within the peripheral region.

A bonding apparatus includes a first holder configured to hold a first substrate divided into multiple chips with a tape and a ring frame therebetween, the first substrate being attached to the tape, and an edge of the tape being attached to the ring frame; a second holder configured to hold a second substrate, which is disposed on an opposite side to the tape with respect to the first substrate therebetween, while maintaining a distance from the first substrate; and a pressing device configured to press the multiple chips one by one with the tape therebetween to press and bond the corresponding chip to the second substrate.

A bonding apparatus includes a first holder configured to hold a first substrate divided into multiple chips with a tape and a ring frame therebetween, the first substrate being attached to the tape, and an edge of the tape being attached to the ring frame; a second holder configured to hold a second substrate, which is disposed on an opposite side to the tape with respect to the first substrate therebetween, while maintaining a distance from the first substrate; and a pressing device configured to press the multiple chips one by one with the tape therebetween to press and bond the corresponding chip to the second substrate.

An integrated circuit includes a first chip bonded to a second chip. The first chip includes gate all around transistors on a substrate. The first chip includes backside conductive vias extending through the substrate to the gate all around transistors. The second chip includes electronic circuitry electrically connected to the transistors by the backside conductive vias.

An integrated circuit includes a first chip bonded to a second chip. The first chip includes gate all around transistors on a substrate. The first chip includes backside conductive vias extending through the substrate to the gate all around transistors. The second chip includes electronic circuitry electrically connected to the transistors by the backside conductive vias.

The semiconductor device includes: a semiconductor element including a body portion formed in a plate shape, a protection film provided at an outer periphery on one surface of the body portion, and a metal thin film provided adjacently to an inner side of the protection film on the one surface of the body portion; a metal member joined to a surface of the metal thin film on a side opposite to the body portion, by solder; and a mold resin sealing the semiconductor element and the metal member, wherein the surface of the metal thin film on the side opposite to the body portion has, on at least a part of an outer periphery thereof, a projection portion projecting from the surface of the metal thin film, and the solder is not provided on an outer peripheral side from a top of the projection portion.

Bonding equipment includes a laminar flow source, a chip handling portion, a cleaning portion for cleaning a chip, a bonding portion for bonding the chip and a substrate, and a transfer mechanism for transferring the chip from the chip handling portion to the bonding portion. Among these, at least the bonding portion and the cleaning portion are disposed in a laminar flow by the laminar flow source.

Devices and techniques include process steps for preparing various microelectronic components for bonding, such as for direct bonding without adhesive. The processes include providing a first bonding surface on a first surface of the microelectronic components, bonding a handle to the prepared first bonding surface, and processing a second surface of the microelectronic components while the microelectronic components are gripped at the handle. In some embodiments, the processes include removing the handle from the first bonding surface, and directly bonding the microelectronic components at the first bonding surface to other microelectronic components.