Some embodiments relate to an electronic package. The electronic package includes a first die and a second die stacked onto the first die. A first encapsulant is positioned between the first die and the second die. The first encapsulant includes a first material that covers a first volume between the first die and the second die. A second encapsulant is positioned between the first die and the second die. The second encapsulant includes a second material that covers a second volume between the first die and the second die. The first material has a higher thermal conductivity than the second material, and the second material more effectively promotes electrical connections between the first die and the second die as compared to the first material.

Some embodiments relate to an electronic package. The electronic package includes a first die and a second die stacked onto the first die. A first encapsulant is positioned between the first die and the second die. The first encapsulant includes a first material that covers a first volume between the first die and the second die. A second encapsulant is positioned between the first die and the second die. The second encapsulant includes a second material that covers a second volume between the first die and the second die. The first material has a higher thermal conductivity than the second material, and the second material more effectively promotes electrical connections between the first die and the second die as compared to the first material.

According to various embodiments, systems and methods for packaging a semiconductor device are provided. The disclosure discusses a semiconductor die having a top side and a bottom side that is disposed on a lead frame. An adhesive paste is then applied to attach the semiconductor die to the lead frame such that the adhesive paste fixes the die to a portion of the lead frame. The adhesive paste may be applied directly between die and the lead frame or may be applied in conjunction with a frame tape.

According to various embodiments, systems and methods for packaging a semiconductor device are provided. The disclosure discusses a semiconductor die having a top side and a bottom side that is disposed on a lead frame. An adhesive paste is then applied to attach the semiconductor die to the lead frame such that the adhesive paste fixes the die to a portion of the lead frame. The adhesive paste may be applied directly between die and the lead frame or may be applied in conjunction with a frame tape.

A method for processing a wafer in accordance with various embodiments may include: removing wafer material from an inner portion of the wafer to form a structure at an edge region of the wafer to at least partially surround the inner portion of the wafer, and printing material into the inner portion of the wafer using the structure as a printing mask. A method for processing a wafer in accordance with various embodiments may include: providing a carrier and a wafer, the wafer having a first side and a second side opposite the first side, the first side of the wafer being attached to the carrier, the second side having a structure at an edge region of the wafer, the structure at least partially surrounding an inner portion of the wafer; and printing material onto at least a portion of the second side of the wafer.

A method of forming a sealing structure for a bonded wafer is provided. The method includes providing the lower wafer and the upper wafer, forming a sealing material layer on each of the lower wafer and the upper wafer, forming a mask layer on the sealing material layer on each of the lower wafer and the upper wafer, etching the sealing material layer using the mask layer as an etch mask, so as to form a first protrusion at an edge of the lower wafer and a second protrusion at an edge of the upper wafer, and bonding the first protrusion and the second protrusion together to form the sealing structure. The sealing structure encloses a gap between the lower wafer and the upper wafer at an edge of the bonded wafer, so as to form a hermetically sealed cavity at the edge of the bonded wafer.

A method of forming a sealing structure for a bonded wafer is provided. The method includes providing the lower wafer and the upper wafer, forming a sealing material layer on each of the lower wafer and the upper wafer, forming a mask layer on the sealing material layer on each of the lower wafer and the upper wafer, etching the sealing material layer using the mask layer as an etch mask, so as to form a first protrusion at an edge of the lower wafer and a second protrusion at an edge of the upper wafer, and bonding the first protrusion and the second protrusion together to form the sealing structure. The sealing structure encloses a gap between the lower wafer and the upper wafer at an edge of the bonded wafer, so as to form a hermetically sealed cavity at the edge of the bonded wafer.

In a method for fabricating a semiconductor, a first conductive pattern structure partially protruding upwardly from first insulating interlayer is formed in first insulating interlayer. A first bonding insulation layer pattern covering the protruding portion of first conductive pattern structure is formed on first insulating interlayer. A first adhesive pattern containing a polymer is formed on first bonding insulation layer pattern to fill a first recess formed on first bonding insulation layer pattern. A second bonding insulation layer pattern covering the protruding portion of second conductive pattern structure is formed on second insulating interlayer. A second adhesive pattern containing a polymer is formed on second bonding insulation layer pattern to fill a second recess formed on second bonding insulation layer pattern. The first and second adhesive patterns are melted. The first and second substrates are bonded with each other so that the conductive pattern structures contact each other.

Methods for bonding substrates, forming assemblies using the same, along with improved methods for refurbishing said assemblies are disclosed that take advantage of at least one channel formed in an adhesive utilized to join two substrates to improve fabrication, performance and refurbishment of the assemblies. In one embodiment an assembly includes a first substrate secured to a second substrate by an adhesive layer. The assembly includes a channel having at least one side bounded by the adhesive layer and having an outlet exposed to an exterior of the assembly.

Bonded structures and method of forming the same are provided. A conductive layer is formed on a first surface of a bonded structure, the bonded structure including a first substrate bonded to a second substrate, the first surface of the bonded structure being an exposed surface of the first substrate. A patterned mask having first openings and second openings is formed on the conductive layer, the first openings and the second openings exposing portions of the conductive layer. First portions of first bonding connectors are formed in the first openings and first portions of second bonding connectors are formed in the second openings. The conductive layer is patterned to form second portions of the first bonding connectors and second portions of the second bonding connectors. The bonded structure is bonded to a third substrate using the first bonding connectors and the second bonding connectors.