Embodiments disclosed herein include multi-die modules and methods of assembling multi-die modules. In an embodiment, a multi-die module comprises a first die. In an embodiment the first die comprises a first pedestal, a plateau around the first pedestal, and a stub extending up from the plateau. In an embodiment, the multi-die module further comprises a second die. In an embodiment, the second die comprises a second pedestal, where the second pedestal is attached to the first pedestal.

An anisotropic conductive film (ACF), a bonding structure, and a display panel, and their fabrication methods are provided. The ACF includes a resin gel and a plurality of conductive particles dispersed in the resin gel. The plurality of conductive particles is aligned and connected, in response to an electric field, to form a conduction path in the resin gel. The bonding structure includes the anisotropic conductive film (ACF) sandwiched between first and second substrates. The display panel includes the bonding structure.

A die structure includes a first die having a first surface and a second surface opposite the first surface. The first die includes sidewalls extending between the first and second surfaces. The die structure includes conductive ink printed traces including a first group of the conductive ink printed traces on the first surface of the first semiconductor die. A second group of the conductive ink printed traces are on the second surface of the semiconductor die, and a third group of the conductive ink printed traces are on the sidewalls of the semiconductor die.

A die structure includes a first die having a first surface and a second surface opposite the first surface. The first die includes sidewalls extending between the first and second surfaces. The die structure includes conductive ink printed traces including a first group of the conductive ink printed traces on the first surface of the first semiconductor die. A second group of the conductive ink printed traces are on the second surface of the semiconductor die, and a third group of the conductive ink printed traces are on the sidewalls of the semiconductor die.

The display device can include a substrate; a barrier rib disposed on the substrate and having an assembly hole; a semiconductor light emitting device in the assembly hole; and an adhesive part between the substrate and the semiconductor light emitting device within the assembly hole. The adhesive part can include adhesive particles in contact with each other.

The micro LED array electronic device suggested in one example of the present invention is a micro LED array comprising a plurality of light emitting devices arranged in columns and rows, which comprises two electrodes formed extending in one direction on a substrate; and cured polymers that fill the gap between the electrodes and vertically spaced electronic devices and comprises ferromagnetic particles, wherein the gap between the plurality of electronic devices is 5 m or more and 100 m or less.