A package includes a bottom substrate and a bottom die over and bonded to the bottom substrate. A metal-particle-containing compound material is overlying a top surface of the bottom die, wherein the metal-particle-containing compound material comprises metal particles. A molding material molds at least a lower part of the bottom die therein, wherein the molding material is overlying the bottom substrate.

A method includes forming a solder layer on a surface of one or more chips. A lid is positioned over the solder layer on each of the one or more chips. Heat and pressure are applied to melt the solder layer and attach each lid to a corresponding solder layer. The solder layer has a thermal conductivity of 50 W/mK.

A semiconductor package includes a substrate having a top surface and a bottom surface, and a vertical sidewall extending between the top surface and the bottom surface; an integrated circuit die mounted within a device region on the top surface of the substrate; a metal interconnect structure embedded within the device region of the substrate, wherein the integrated circuit die is electrically connected to the metal interconnect structure; and a peripheral shielding ring embedded within a peripheral region of the substrate. The peripheral region surrounds the device region. A lid is mounted on the top surface of the substrate. The lid is electrically connected with the peripheral shielding ring.

A package includes a substrate having a conductive layer, and the conductive layer comprises an exposed portion. A die stack is disposed over the substrate and electrically connected to the conductive layer. A high thermal conductivity material is disposed over the substrate and contacting the exposed portion of the conductive layer. The package further includes a contour ring over and contacting the high thermal conductivity material.

Some embodiments relate to a semiconductor device. The semiconductor device includes a substrate. A first die is coupled beneath a lower surface of the substrate. A second die is coupled beneath the lower surface of the substrate and is disposed over the first die. A thermal contact pad is arranged beneath a lower surface of the second die and an upper surface of the first die. The thermal contact pad thermally isolates the first die from the second die.

In some examples, a wafer chip scale package (WCSP) comprises a semiconductor die having a device side in which circuitry is formed and a non-device side opposite the device side, a solder bump electrically coupled to the circuitry, and a mold compound in contact with the device side, the solder bump, and four lateral sides of the semiconductor die. The package also comprises a thermal pad in contact with the non-device side of the semiconductor die and the mold compound.

Some embodiments relate to a semiconductor device. The semiconductor device includes a substrate and a first die coupled to a top surface of the substrate. A second die is coupled to a bottom surface of the substrate. A thermal contact pad couples the second die to the bottom surface of the substrate. The thermal contact pad electrically isolates the first die from the second die. A molding compound resides over the substrate and surrounds the first and second dies and the thermal contact pad.

A method includes depositing a first metal layer on a package component, wherein the package component comprises a first device die, forming a dielectric layer on the package component, and plating a metal thermal interface material on the first metal layer. The dielectric layer includes portions on opposing sides of the metal thermal interface material. A heat sink is bonded on the metal thermal interface material. The heat sink includes a second metal layer physically joined to the metal thermal interface material.

A package structure includes a circuit substrate, a package unit, a thermal interface material and a cover. The package unit is disposed on and electrically connected with the circuit substrate. The package unit includes a first surface facing the circuit substrate and a second surface opposite to the first surface. A underfill is disposed between the package unit and the circuit substrate, surrounding the package unit and partially covering sidewalls of the package unit. The cover is disposed over the package unit and over the circuit substrate. An adhesive is disposed on the circuit substrate and between the cover and the circuit substrate. The thermal interface material includes a metal-type thermal interface material and is disposed between the cover and the package unit. The thermal interface material physically contacts the second surface and the sidewalls of the package unit and physically contacts the underfill.

A package includes a bottom substrate and a bottom die over and bonded to the bottom substrate. A metal-particle-containing compound material is overlying a top surface of the bottom die, wherein the metal-particle-containing compound material comprises metal particles. A molding material molds at least a lower part of the bottom die therein, wherein the molding material is overlying the bottom substrate.