In one embodiment, a semiconductor device includes a first insulator, a first pad provided in the first insulator, a second insulator provided on the first insulator, and a second pad provided on the first pad in the second insulator. Furthermore, the first insulator includes a first film that is in contact with the first pad and the second insulator, and a second film provided at an interval from the first pad and the second insulator, and including a portion provided at a same height as at least a portion of the first pad.

A semiconductor structure for wafer level bonding includes a bonding dielectric layer disposed on a substrate and a bonding pad disposed in the bonding dielectric layer. The bonding pad includes a top surface exposed from the bonding dielectric layer, a bottom surface opposite to the top surface, and a sidewall between the top surface and the bottom surface. A bottom angle between the bottom surface and sidewall of the bonding pad is smaller than 90 degrees.

A semiconductor structure for wafer level bonding includes a bonding dielectric layer disposed on a substrate and a bonding pad disposed in the bonding dielectric layer. The bonding pad includes a top surface exposed from the bonding dielectric layer, a bottom surface opposite to the top surface, and a sidewall between the top surface and the bottom surface. A bottom angle between the bottom surface and sidewall of the bonding pad is smaller than 90 degrees.

A bonded assembly includes a first semiconductor die that includes first semiconductor devices, and a first pad-level dielectric layer and embedding first bonding pads; and a second semiconductor die that includes second semiconductor devices, and a second pad-level dielectric layer embedding second bonding pads that includes a respective second pad base portion. Each of the first bonding pads includes a respective first pad base portion and a respective first metal alloy material portion having a higher coefficient of thermal expansion (CTE) than the respective first pad base portion. Each of the second bonding pads is bonded to a respective one of the first bonding pads.

A bonded assembly includes a first semiconductor die that includes first semiconductor devices, and a first pad-level dielectric layer and embedding first bonding pads; and a second semiconductor die that includes second semiconductor devices, and a second pad-level dielectric layer embedding second bonding pads that includes a respective second pad base portion. Each of the first bonding pads includes a respective first pad base portion and a respective first metal alloy material portion having a higher coefficient of thermal expansion (CTE) than the respective first pad base portion. Each of the second bonding pads is bonded to a respective one of the first bonding pads.

In an embodiment, a device includes: a processor die including circuit blocks, the circuit blocks including active devices of a first technology node; a power gating die including power semiconductor devices of a second technology node, the second technology node larger than the first technology node; and a first redistribution structure including first metallization patterns, the first metallization patterns including power supply source lines and power supply ground lines, where a first subset of the circuit blocks is electrically coupled to the power supply source lines and the power supply ground lines through the power semiconductor devices, and a second subset of the circuit blocks is permanently electrically coupled to the power supply source lines and the power supply ground lines.

In an embodiment, a device includes: a processor die including circuit blocks, the circuit blocks including active devices of a first technology node; a power gating die including power semiconductor devices of a second technology node, the second technology node larger than the first technology node; and a first redistribution structure including first metallization patterns, the first metallization patterns including power supply source lines and power supply ground lines, where a first subset of the circuit blocks is electrically coupled to the power supply source lines and the power supply ground lines through the power semiconductor devices, and a second subset of the circuit blocks is permanently electrically coupled to the power supply source lines and the power supply ground lines.

A method for forming a semiconductor structure includes receiving a first die having a first interconnect structure and a first bonding layer over the first interconnect structure, and a second die having a second interconnect structure and a second bonding layer over the second interconnect structure; forming a recess indenting into the first bonding layer; and forming a positioning member on the second bonding layer. The method further includes bonding the second die over the first die; and disposing the positioning member into the recess. The positioning member includes dielectric, is surrounded by the first bonding layer, and is isolated from the first interconnect structure and the second interconnect structure.

A method for forming a semiconductor structure includes receiving a first die having a first interconnect structure and a first bonding layer over the first interconnect structure, and a second die having a second interconnect structure and a second bonding layer over the second interconnect structure; forming a recess indenting into the first bonding layer; and forming a positioning member on the second bonding layer. The method further includes bonding the second die over the first die; and disposing the positioning member into the recess. The positioning member includes dielectric, is surrounded by the first bonding layer, and is isolated from the first interconnect structure and the second interconnect structure.

A device includes an array of light sources (e.g., micro-LEDs, micro-RCLEDs, micro-laser: micro-SLEDs, or micro-VCSELs), a dielectric layer on the array of light sources, and a set of metal bonding pads (e.g., copper bonding pads) in the dielectric layer. Each metal bonding pad of the set of metal bonding pads is electrically connected to a respective light source of the array of light sources. Each metal bonding pad of the set of metal bonding pads includes a first portion at a bonding surface and characterized by a first lateral cross-sectional area, and a second portion away from the bonding surface and characterized by a second lateral cross-sectional area larger than two times of the first lateral cross-sectional area. The device can be bonded to a backplane that includes a drive circuit through a low annealing temperature hybrid bonding.