A nanowire LED, a display module including the nanowire LED, and a method for manufacturing the display module are provided. The method for manufacturing a display module includes forming a template layer including a magnetic layer on a silicon substrate, growing a plurality of nanowire LEDs on the template layer, separating the plurality of nanowire LEDs from the template layer by ultrasonic waves, forming a plurality of unit cells in a state in which the plurality of nanowire LEDs are aligned to have a specific directivity, forming a plurality of unit pixels by transferring the plurality of unit cells onto a unit substrate, arranging the plurality of unit pixels on a thin film transistor (TFT) substrate through a fluidic self-assembly, and bonding the plurality of unit pixels to be connected to an electrode of the TFT substrate.

Discussed is a semiconductor light emitting device for a display panel, a substrate structure for a display panel, and a display device including the substrate structure. A display device including a semiconductor light emitting device can include a first electrode and a second electrode spaced apart from each other on a predetermined substrate, an insulating layer disposed on the first and second electrodes, a first barrier wall disposed on the insulating layer and including a first assembling hole and a semiconductor light emitting device disposed in the first assembling hole of the first barrier wall. Also, the semiconductor light emitting device can include a light emitting structure, a passivation layer on the light emitting structure, and a first reflective alignment structure disposed in the light emitting structure.

An electronic device is provided, the electronic device includes a driving substrate (13), the driving substrate includes a plurality of circular grooves and a plurality of rectangular grooves, and a plurality of disc-shaped electronic components, at least one disc-shaped electronic component is disposed in at least one circular groove, an alignment element positioned on a top surface of the at least one disc-shaped electronic component, a diameter of the at least one disc-shaped electronic component is defined as R, a diameter of the alignment element is defined as r, a width of at least one rectangular groove among the rectangular grooves is defined as w, and a height of the at least one rectangular groove is defined as H, and the disc-shaped electronic component and the rectangular groove satisfy the condition of (R+r)/2>(w.sup.2+H.sup.2).sup.1/2.

The present specification provides a display device using semiconductor light-emitting diodes which are self-assembled in fluid, and a method for manufacturing same. Specifically, the semiconductor light-emitting diode comprises: a first-conductive-type electrode layer and a second-conductive-type electrode layer; a first-conductive-type semiconductor layer electrically connected to the first-conductive-type electrode layer; an active layer provided on the first-conductive-type semiconductor layer; and a second-conductive-type semiconductor layer provided on the active layer and electrically connected to the second-conductive-type electrode layer, wherein one surface of the second-conductive-type semiconductor layer comprises a mesa structure formed by etching a portion of the one surface, and the second-conductive-type electrode layer is provided on the one surface comprising the mesa structure of the second-conductive-type semiconductor layer.

The present invention provides an assembly substrate used in a method for manufacturing a display device which mounts semiconductor light emitting devices on a predetermined position of an assembly substrate by using an electric field and a magnetic field. Specifically, the assembly substrate is characterized by comprising: a base part; a plurality of assembly electrodes formed extending in one direction and disposed on the base part; a dielectric layer laminated on the base part so as to cover the assembly electrodes; a partition wall formed on the base part and including a plurality of grooves for guiding the semiconductor light emitting devices to a predetermined position; and a metal shielding layer formed on the base part, wherein each of the plurality of grooves penetrates the partition wall so as to form a seating surface on which the guided light emitting devices are seated, and the metal shielding layer overlaps with a part of the seating surface such that an electric field formed on a part of the seating surface is shielded.

A semiconductor device transfer structure, a display apparatus, and a method of manufacturing the display apparatus are provided. The semiconductor device transfer structure includes: a substrate; an alignment layer provided on the substrate and including a trap configured to seat a semiconductor device; and a transfer layer provided on the alignment layer and including a groove.

A chip transfer apparatus includes: a chip storage module in which a plurality of micro-semiconductor chips and a suspension including impurities are stored; a chip filtration module separating a first suspension including the plurality of micro-semiconductor chips and a second suspension including the impurities in the suspension; and a chip supply module configured to supply the first suspension onto the transfer substrate such that the first suspension is introduced from the chip filtration module and the plurality of micro-semiconductor chips are flowable on the transfer substrate.

Discussed is a display device that can include a base unit, a data wire and a gate wire arranged in columns and rows, respectively, and on the base unit to intersect each other, a power wire extending in a same direction as the data wire, thin film transistors connected to the data wire and the gate wire, and a semiconductor light-emitting diode electrically connected to the thin film transistors. A pair of residual assembly electrodes overlapping the semiconductor light-emitting diode are also provided.

According to a semiconductor light-emitting element collecting apparatus and a semiconductor light-emitting element collecting method using the same according to an embodiment of the present invention, in order to collect semiconductor light-emitting elements, a fluid accommodated in a housing unit is rotated such that semiconductor light-emitting elements are guided to sink to a bottom surface of the housing unit, and accordingly, the semiconductor light-emitting elements can be rapidly collected. In addition, a collecting operation can be performed without exerting the physical force to the semiconductor light-emitting elements, a collecting rate of the semiconductor light-emitting elements can be improved.

Embodiments are related to systems and methods for fluidic assembly, and more particularly to systems and methods for assuring deposition of elements in relation to a substrate.