A semiconductor assembly packaging method, a semiconductor assembly and an electronic device are provided. The method comprises providing an interconnect board and at least one semiconductor device; aligning and attaching the at least one semiconductor device to the interconnect board by forming a plurality of alignment solder joints; applying pressure to the at least one semiconductor device and/or the interconnect board while the alignment solder joints are in a molten or partially molten state, whereby first connection terminals on the interconnect board are joined with and bonded to corresponding second connection terminals on the at least one semiconductor device. Using the packaging method, the semiconductor device and the interconnect board can be aligned accurately using relatively simple and low cost processes and equipment. The method can also be used to align and bond at least one semiconductor device to another semiconductor device.

A method of manufacturing a micro light emitting diode (LED) display module. The method of manufacturing a micro LED display module may include: pressing a plurality of micro LEDs disposed on a substrate to which an adhesive layer is applied, to electrically connect the plurality of micro LEDs to electrode pads of the substrate; performing testing to detect whether at least one of the plurality of micro LEDs is defective in a state in which the plurality of micro LEDs are pressurized and the adhesive layer is uncured; and based on detecting that at least one of the plurality of micro LEDs is defective, performing control to harden the adhesive layer.

A method of manufacturing a micro light emitting diode (LED) display module. The method of manufacturing a micro LED display module may include: pressing a plurality of micro LEDs disposed on a substrate to which an adhesive layer is applied, to electrically connect the plurality of micro LEDs to electrode pads of the substrate; performing testing to detect whether at least one of the plurality of micro LEDs is defective in a state in which the plurality of micro LEDs are pressurized and the adhesive layer is uncured; and based on detecting that at least one of the plurality of micro LEDs is defective, performing control to harden the adhesive layer.

An adhesive member includes: a conductive particle layer including a plurality of conductive particles; a non-conductive layer disposed on the conductive particle layer; and a screening layer interposed between the conductive particle layer and the non-conductive layer and includes a plurality of screening members spaced apart from each other.

Electronic assembly methods and structures are described. In an embodiment, an electronic assembly method includes bringing together an electronic component and a routing substrate, and directing a large area photonic soldering light pulse toward the electronic component to bond the electronic component to the routing substrate.

A transfer method includes providing a first light emitting diode on a first substrate, performing a partial laser liftoff of the first light emitting diode from the first substrate, laser bonding the first light emitting diode to the backplane after performing the partial laser liftoff, and separating the first substrate from the first light emitting diode after the laser bonding.

A transfer method includes providing a first light emitting diode on a first substrate, performing a partial laser liftoff of the first light emitting diode from the first substrate, laser bonding the first light emitting diode to the backplane after performing the partial laser liftoff, and separating the first substrate from the first light emitting diode after the laser bonding.

An assembly includes at least one first element comprising at least one first electrical bonding pad; at least one second element comprising at least one second electrical bonding pad; electrical and mechanical interconnect means, wherein the electrical and mechanical interconnect means comprise at least: at least one first intermediate metal interconnect element, on the surface of at least the first electrical bonding pad; at least one sintered joint of metal microparticles or nanoparticles stacked with the first intermediate metal interconnect element; the melting point of the first intermediate metal interconnect element being greater than the sintering temperature of the metal microparticles or nanoparticles. A method for fabricating an assembly is also provided.

Electronic assembly methods and structures are described. In an embodiment, an electronic assembly method includes bringing together an electronic component and a routing substrate, and directing a large area photonic soldering light pulse toward the electronic component to bond the electronic component to the routing substrate.

Electronic assembly methods and structures are described. In an embodiment, an electronic assembly method includes bringing together an electronic component and a routing substrate, and directing a large area photonic soldering light pulse toward the electronic component to bond the electronic component to the routing substrate.