There is provided a bonding material which forms a bonding portion between two objects, which material contains (1) first metal particles comprising a first metal and having a median particle diameter in the range of 20 nm to 1 μm, and (2) second metal particles comprising, as a second metal, at least one alloy of Sn and at least one selected from Bi, In and Zn and having a melting point of not higher than 200° C.

A semiconductor package includes an upper substrate having a first surface and a second surface which are opposite to each other, a lower semiconductor chip disposed on the first surface of the upper substrate, a plurality of conductive pillars disposed on the first surface of the upper substrate at at least one side of the lower semiconductor chip, and an upper semiconductor chip disposed on the second surface of the upper substrate. The lower semiconductor chip and the plurality of conductive pillars are connected to the first surface of the upper substrate, and the upper semiconductor chip is connected to the second surface of the upper substrate.

A semiconductor package includes an upper substrate having a first surface and a second surface which are opposite to each other, a lower semiconductor chip disposed on the first surface of the upper substrate, a plurality of conductive pillars disposed on the first surface of the upper substrate at at least one side of the lower semiconductor chip, and an upper semiconductor chip disposed on the second surface of the upper substrate. The lower semiconductor chip and the plurality of conductive pillars are connected to the first surface of the upper substrate, and the upper semiconductor chip is connected to the second surface of the upper substrate.

Disclosed are semiconductor packages and/or methods of fabricating the same. The semiconductor package comprises a substrate, a semiconductor chip on the substrate, and a molding layer. The semiconductor chip includes a circuit region and an edge region around the circuit region. The molding layer covers a sidewall of the semiconductor chip. The semiconductor chip includes a reforming layer on the edge region. A top surface of the reforming layer is coplanar with a top surface of the molding layer.

Disclosed are semiconductor packages and/or methods of fabricating the same. The semiconductor package comprises a substrate, a semiconductor chip on the substrate, and a molding layer. The semiconductor chip includes a circuit region and an edge region around the circuit region. The molding layer covers a sidewall of the semiconductor chip. The semiconductor chip includes a reforming layer on the edge region. A top surface of the reforming layer is coplanar with a top surface of the molding layer.

A semiconductor package includes an upper substrate having a first surface and a second surface which are opposite to each other, a lower semiconductor chip disposed on the first surface of the upper substrate, a plurality of conductive pillars disposed on the first surface of the upper substrate at at least one side of the lower semiconductor chip, and an upper semiconductor chip disposed on the second surface of the upper substrate. The lower semiconductor chip and the plurality of conductive pillars are connected to the first surface of the upper substrate, and the upper semiconductor chip is connected to the second surface of the upper substrate.

A semiconductor package includes an upper substrate having a first surface and a second surface which are opposite to each other, a lower semiconductor chip disposed on the first surface of the upper substrate, a plurality of conductive pillars disposed on the first surface of the upper substrate at at least one side of the lower semiconductor chip, and an upper semiconductor chip disposed on the second surface of the upper substrate. The lower semiconductor chip and the plurality of conductive pillars are connected to the first surface of the upper substrate, and the upper semiconductor chip is connected to the second surface of the upper substrate.

A package structure is provided. The package structure includes an interposer substrate including an insulating structure, a conductive pad, a first conducive line, and a first conductive via structure. The package structure includes an electronic device bonded to the conductive pad. The package structure includes a chip structure bonded to the first end portion of the first conductive via structure. The package structure includes a first conductive bump connected between the chip structure and the first end portion of the first conductive via structure. The first end portion protrudes into the first conductive bump and is in direct contact with the first conductive bump.

A package structure is provided. The package structure includes an interposer substrate including an insulating structure, a conductive pad, a first conducive line, and a first conductive via structure. The package structure includes an electronic device bonded to the conductive pad. The package structure includes a chip structure bonded to the first end portion of the first conductive via structure. The package structure includes a first conductive bump connected between the chip structure and the first end portion of the first conductive via structure. The first end portion protrudes into the first conductive bump and is in direct contact with the first conductive bump.

A method for forming a packaged electronic device includes providing a substrate having a first major surface and an opposing second major surface. The method includes attaching an electronic device to the first major surface of the substrate and providing a first conductive structure coupled to at least a first portion of the substrate. The method includes forming a dielectric layer overlying at least part of the first conductive structure. The method includes forming a conductive layer overlying the dielectric layer and connected to a second portion of the substrate. The first conductive structure, the dielectric layer, and conductive layer are configured as a capacitor structure and further configured as one or more of an enclosure structure or a stiffener structure for the packaged electronic device.