A display device and method for fabrication thereof includes a plurality of pixel electrodes and common electrode connection parts that are spaced from each other on a first substrate, a plurality of light emitting elements on the plurality of pixel electrodes, a plurality of common electrode elements on the common electrode connection parts, and a common electrode layer on the plurality of light emitting elements and the plurality of common electrode elements, wherein each of the plurality of light emitting element includes a first semiconductor layer, a second semiconductor layer, and an active layer between the first semiconductor layer and the second semiconductor layer, each of the plurality of common electrode elements includes at least the second semiconductor layer, and the common electrode layer includes a same material as the second semiconductor layer to be connected to the second semiconductor layers of the plurality of light emitting elements.

A display device and method for fabrication thereof are provided. The display device includes a first substrate, pixel electrodes on the first substrate, light emitting elements respectively on the pixel electrodes, and including first semiconductor layers, second semiconductor layers, active layers respectively between the first semiconductor layers and the second semiconductor layers, a first light emitting element including a first active layer of the active layers, a second light emitting element including a second active layer of the active layers that is different from the first active layer, a third light emitting element including a third active layer of the active layers that is different from the first and second active layers, and a fourth light emitting element including a fourth active layer of the active layers that is different from the first to third active layers, and a common electrode layer on the light emitting elements.

A memory device includes a memory array, a circuit structure, a bonding structure between the memory array and the circuit structure, and a shielding structure between the memory array and the circuit structure and surrounding the bonding structure. The bonding structure includes a first bonding pattern and a second bonding pattern. The circuit structure is electrically connected with the memory array through the bonding structure. The shielding structure includes a third bonding pattern and a fourth bonding pattern. The first bonding pattern is in contact with the second bonding pattern at a first interface between the first bonding pattern and the second bonding pattern. The third bonding pattern is in contact with the fourth bonding pattern at a second interface between the third bonding pattern and the fourth bonding pattern.

The present invention relates to a semiconductor structure and method of forming the same. The semiconductor structure includes a first substrate and a first bonding layer on a surface of the first substrate, and the material of first bonding layer includes dielectric materials of silicon, nitrogen and carbon, and an atomic concentration of carbon in the first bonding layer gradually increases along with an increase of thickness of the first bonding layer from the surface of first substrate and reaches a maximum atomic concentration of carbon at a surface of the first bonding layer.

The present invention relates to a semiconductor structure and method of forming the same. The semiconductor structure includes a first substrate and a first bonding layer on a surface of the first substrate, and the material of first bonding layer includes dielectric materials of silicon, nitrogen and carbon, and an atomic concentration of carbon in the first bonding layer gradually increases along with an increase of thickness of the first bonding layer from the surface of first substrate and reaches a maximum atomic concentration of carbon at a surface of the first bonding layer.

A light emitting module including a circuit board and a lighting emitting device thereon and including first, second, and third LED stacks each including first and second conductivity type semiconductor layers, a first bonding layer between the second and third LED stacks, a second bonding layer between the first and second LED stacks, a first planarization layer between the second bonding layer and the third LED stack, a second planarization layer on the first LED stack, a lower conductive material extending along sides of the first planarization layer, the second LED stack, the first bonding layer, and electrically connected to the first conductivity type semiconductor layers of each LED stack, respectively, and an upper conductive material between the circuit board and the lower conductive material, in which a width of an upper end of the upper conductive material is greater than a width of the corresponding upper conductive material.

A light emitting module including a circuit board and a lighting emitting device thereon and including first, second, and third LED stacks each including first and second conductivity type semiconductor layers, a first bonding layer between the second and third LED stacks, a second bonding layer between the first and second LED stacks, a first planarization layer between the second bonding layer and the third LED stack, a second planarization layer on the first LED stack, a lower conductive material extending along sides of the first planarization layer, the second LED stack, the first bonding layer, and electrically connected to the first conductivity type semiconductor layers of each LED stack, respectively, and an upper conductive material between the circuit board and the lower conductive material, in which a width of an upper end of the upper conductive material is greater than a width of the corresponding upper conductive material.

A method of manufacturing a bonded structure includes providing a first semiconductor structure including a first die, a first dielectric layer and a first conductive pad electrically connected to the first die and surrounded by the first dielectric layer; providing a second semiconductor structure including a second die, a second dielectric layer and a second conductive pad electrically connected to the second die and surrounded by the second dielectric layer; providing a carrying module including a holding unit configured to hold the second semiconductor structure and an anchoring unit movably attached to the holding unit, wherein the anchoring unit includes an end portion; disposing the carrying module and the second semiconductor structure over the first semiconductor structure; and displacing the anchoring unit towards the first semiconductor structure to make the end portion in contact with the first dielectric layer.

A method may include forming a first atomic layer deposition (ALD) bonding layer on a surface of a first semiconductor device, and forming a second ALD bonding layer on a surface of a second semiconductor device. The method may include joining the first semiconductor device and the second semiconductor device via the first ALD bonding layer and the second ALD bonding layer. The method may include performing an annealing operation to fuse the first ALD bonding layer and the second ALD bonding layer and form a single ALD bonding layer that bonds the first semiconductor device with the second semiconductor device.

A method may include forming a first atomic layer deposition (ALD) bonding layer on a surface of a first semiconductor device, and forming a second ALD bonding layer on a surface of a second semiconductor device. The method may include joining the first semiconductor device and the second semiconductor device via the first ALD bonding layer and the second ALD bonding layer. The method may include performing an annealing operation to fuse the first ALD bonding layer and the second ALD bonding layer and form a single ALD bonding layer that bonds the first semiconductor device with the second semiconductor device.