Microelectronic assemblies, related devices, and methods are disclosed herein. In some embodiments, a microelectronic assembly may include a die having a first surface and an opposing second surface; a capacitor having a surface, wherein the surface of the capacitor is coupled to the first surface of the die; and a conductive pillar coupled to the first surface of the die. In some embodiments, a microelectronic assembly may include a capacitor in a first dielectric layer; a conductive pillar in the first dielectric layer; a first die having a surface in the first dielectric layer; and a second die having a surface in a second dielectric layer, wherein the second dielectric layer is on the first dielectric layer, and wherein the surface of the second die is coupled to the capacitor, to the surface of the first die, and to the conductive pillar.

A semiconductor device with a connection pad in a substrate, the connection pad having an exposed surface made of a metallic material that diffuses less readily into a dielectric layer than does a metal of a wiring layer connected thereto.

Electronic device package technology is disclosed. In one example, an electronic device comprises a die (18) having a bond pad (22); and a decoupling capacitor (14) mounted on the die (18) and electrically coupled to the die (18). A method for making an electronic device comprises mounting a decoupling capacitor (14) on a die (18); and electrically coupling the decoupling capacitor (14) to the die (18).

Electronic device package technology is disclosed. In one example, an electronic device comprises a die (18) having a bond pad (22); and a decoupling capacitor (14) mounted on the die (18) and electrically coupled to the die (18). A method for making an electronic device comprises mounting a decoupling capacitor (14) on a die (18); and electrically coupling the decoupling capacitor (14) to the die (18).

A light-emitting device includes a carrier, a light-emitting element and a connection structure. The carrier includes a first electrical conduction portion. The light-emitting element includes a first light-emitting layer capable of emitting first light and a first contact electrode formed under the light-emitting layer. The first contact electrode is corresponded to the first electrical conduction portion. The connection structure includes a first electrical connection portion and a protective portion surrounding the first contact electrode and the first electrical connection portion. The first electrical connection portion includes an upper portion, a lower portion and a neck portion arranged between the upper portion and the lower portion. An edge of the upper portion is protruded beyond the neck portion, and an edge of the lower portion is protruded beyond the upper portion.

A light-emitting device includes a carrier, a light-emitting element and a connection structure. The carrier includes a first electrical conduction portion. The light-emitting element includes a first light-emitting layer capable of emitting first light and a first contact electrode formed under the light-emitting layer. The first contact electrode is corresponded to the first electrical conduction portion. The connection structure includes a first electrical connection portion and a protective portion surrounding the first contact electrode and the first electrical connection portion. The first electrical connection portion includes an upper portion, a lower portion and a neck portion arranged between the upper portion and the lower portion. An edge of the upper portion is protruded beyond the neck portion, and an edge of the lower portion is protruded beyond the upper portion.

A semiconductor package including a base comprising an upper surface and a lower surface that is opposite to the upper surface; a radio-frequency (RF) module embedded near the upper surface of the base; an integrated circuit (IC) die mounted on the lower surface of the base in a flip-chip manner so that a backside of the IC die is available for heat dissipation; a plurality of conductive structures disposed on the lower surface of the base and arranged around the IC die; and a metal thermal interface layer comprising a backside metal layer that is in contact with the backside of the IC die, and a solder paste conformally printed on the backside metal layer.

The present disclosure provides an electronic device including a substrate, a conductive pad, a chip and an insulating layer. The conductive pad is disposed on the substrate. The chip is disposed on the conductive pad. The insulating layer is disposed between the conductive pad and the chip, wherein the insulating layer includes an opening, and the chip is electrically connected to the conductive pad through the opening. An outline of the opening includes a plurality of curved corners in a normal direction of the substrate.

The present disclosure provides an electronic device including a substrate, a conductive pad, a chip and an insulating layer. The conductive pad is disposed on the substrate. The chip is disposed on the conductive pad. The insulating layer is disposed between the conductive pad and the chip, wherein the insulating layer includes an opening, and the chip is electrically connected to the conductive pad through the opening. An outline of the opening includes a plurality of curved corners in a normal direction of the substrate.

In a copper alloy bonding wire for semiconductor devices, the bonding longevity of a ball bonded part under high-temperature and high-humidity environments is improved. The copper alloy bonding wire for semiconductor devices includes in total 0.03% by mass or more to 3% by mass or less of at least one or more kinds of elements selected from Ni, Zn, Ga, Ge, Rh, In, Ir, and Pt (first element), with the balance Cu and inevitable impurities. The inclusion of a predetermined amount of the first element suppresses production of an intermetallic compound susceptible to corrosion under high-temperature and high-humidity environments at the wire bonding interface and improves the bonding longevity of a ball bonded part.