In some embodiments, an interconnection structure can electrically and physically couple a first semiconductor die and a second semiconductor die. The interconnection structure can include a first portion at the first semiconductor die and a second portion at the second semiconductor die. The first portion can include a first conductive pillar with a concave bonding surface, a first annular barrier layer, and a first annular solder layer. The first annular barrier layer can surround a sidewall of the first conductive pillar, and the first annular solder layer can surround the first barrier layer. The second portion can include a second conductive pillar having a convex bonding surface, the convex bonding surface coupled to the concave bonding surface. The second interconnection structure can further include a second annular solder layer surrounding a second annular barrier layer surrounding the second conductive pillar.

A semiconductor chip, a display device or an electronic device includes a substrate, one or more conductive pads disposed on the substrate, and one or more bumps electrically connected to the one or more conductive pads, in which the one or more bumps includes a metal core, a polymer layer disposed over a surface of the metal core, and a conductive coating layer disposed over a surface of the polymer layer and electrically connected to the one or more conductive pads.

A semiconductor chip, a display device or an electronic device includes a substrate, one or more conductive pads disposed on the substrate, and one or more bumps electrically connected to the one or more conductive pads, in which the one or more bumps includes a metal core, a polymer layer disposed over a surface of the metal core, and a conductive coating layer disposed over a surface of the polymer layer and electrically connected to the one or more conductive pads.

A semiconductor device includes a semiconductor chip having a pad which is exposed through a passivation layer, a bump pillar formed over the passivation layer adjacent to the pad, but not overlapping with the pad. The semiconductor chip also has a solder layer including a solder bump portion which is formed over the bump pillar and a solder fillet portion which is formed at one side of the bump pillar facing the pad to cover the pad and electrically couples the bump pillar and the pad.

A semiconductor device includes a semiconductor chip having a pad which is exposed through a passivation layer, a bump pillar formed over the passivation layer adjacent to the pad, but not overlapping with the pad. The semiconductor chip also has a solder layer including a solder bump portion which is formed over the bump pillar and a solder fillet portion which is formed at one side of the bump pillar facing the pad to cover the pad and electrically couples the bump pillar and the pad.

A system and method for conductive pillars is provided. An embodiment comprises a conductive pillar having trenches located around its outer edge. The trenches are used to channel conductive material such as solder when a conductive bump is formed onto the conductive pillar. The conductive pillar may then be electrically connected to another contact through the conductive material.

The disclosure provides a light-emitting device and a displayer. Herein, the light-emitting device includes a substrate, a light-emitting chip, a first light-transmitting layer, a second light-transmitting layer and a nano coating. The light transmittance of the second light-transmitting layer is greater than the light transmittance of the first light-transmitting layer. A reference surface corresponding to the light-emitting chip is arranged above the substrate, and the reference surface is higher than the bottom surface of the light-emitting chip and not higher than the top surface of the light-emitting chip. The first light-transmitting layer covers the surface of the light-emitting chip below the reference surface, and the second light-transmitting layer covers the surface of the light-emitting chip above the reference surface. The nano coating covers the outer surface of the first light-transmitting layer, the outer surface of the second light-transmitting layer and the side surface of the substrate.

A semiconductor chip, a display device or an electronic device includes a substrate, one or more conductive pads disposed on the substrate, and one or more bumps electrically connected to the one or more conductive pads, in which the one or more bumps includes a metal core, a polymer layer disposed over a surface of the metal core, and a conductive coating layer disposed over a surface of the polymer layer and electrically connected to the one or more conductive pads.

A semiconductor chip, a display device or an electronic device includes a substrate, one or more conductive pads disposed on the substrate, and one or more bumps electrically connected to the one or more conductive pads, in which the one or more bumps includes a metal core, a polymer layer disposed over a surface of the metal core, and a conductive coating layer disposed over a surface of the polymer layer and electrically connected to the one or more conductive pads.

Methods of fabricating semiconductor packages are provided. One of the methods includes forming a protection layer including metal on a first surface of a substrate to cover a semiconductor device disposed on the first surface of the substrate, attaching a support substrate to the protection layer by using an adhesive member, processing a second surface of the substrate opposite to the protection layer to remove a part of the substrate, and detaching the support substrate from the substrate.