A semiconductor package including a package substrate, a connection substrate on the package substrate and having on a lower corner of the connection substrate a recession that faces a top surface of the package substrate, a semiconductor chip on the connection substrate, a plurality of first connection terminals connecting the connection substrate to the semiconductor chip, and a plurality of second connection terminals connecting the package substrate to the connection substrate. The recession is laterally spaced apart from the second connection terminals.

Provided is a sequencing chip. The sequencing chip includes: a chip main body, nucleic acids, and a phosphonic acid polymer film. The chip main body includes a plurality of chip particles arranged in a same layer, the chip particles are obtained by cutting a chip matrix along cutting lines of a wafer layer, and the chip matrix includes: the wafer layer having the cutting lines uniformly distributed thereon; a first silicon oxide layer made of silicon oxide and formed on an upper surface of the wafer layer; and a transition metal oxide layer made of a transition metal oxide and formed on an upper surface of the first silicon oxide layer. The nucleic acids are fixed on the transition metal oxide layer; and the phosphonic acid polymer film is made of a polyphosphonic acid polymer and formed on an upper surface of the transition metal oxide layer.

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 device according to the present embodiment includes a substrate and a semiconductor chip. The substrate has a first face and a plurality of conductive connection parts provided on the first face. The semiconductor chip has a second face that faces the first face and a plurality of connection bumps provided on the second face and electrically connected to the plurality of conductive connection parts. The conductive connection part arranged in a chip outer peripheral region of a chip region on the first face where the semiconductor chip is arranged is different in thickness from the conductive connection part arranged in a chip central region of the chip region.

A semiconductor package structure is provided. The semiconductor package structure includes a carrier substrate, an interposer substrate, a semiconductor device, a lid, and a thermal interface material. The interposer substrate is disposed on the carrier substrate. The semiconductor device is disposed on the interposer substrate. The lid is disposed on the carrier substrate to cover the semiconductor device. The thermal interface material is disposed between the lid and the semiconductor device. A first recess is formed on a lower surface of the lid facing the semiconductor device, and the first recess overlaps the semiconductor device in a top view.

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.

A package structure includes a circuit substrate, a semiconductor package, a lid structure, a passive device and a barrier structure. The semiconductor package is disposed on and electrically connected to the circuit substrate. The lid structure is disposed on the circuit substrate covering the semiconductor package. The lid structure is attached to the circuit substrate through an adhesive material. The passive device is disposed on the circuit substrate in between the semiconductor package and the lid structure. The barrier structure is separating the passive device from the lid structure and the adhesive material, and the barrier structure is in contact with the adhesive material.

A semiconductor device includes a circuit substrate, a semiconductor package, connective terminals and supports. The circuit substrate has a first side and a second side opposite to the first side. The semiconductor package is connected to the first side of the circuit substrate. The connective terminals are located on the second side of the circuit substrate and are electrically connected to the semiconductor package via the circuit substrate. The supports are located on the second side of the circuit substrate beside the connective terminals. A material of the supports has a melting temperature higher than a melting temperature of the connective terminals.

A method for forming a semiconductor device package is provided. The method includes bonding a semiconductor device to a package substrate; placing a metal lid over the semiconductor device and the package substrate with a metal thermal interface material (TIM) provided between the metal lid and the semiconductor device; heating the metal TIM to melt the metal TIM; pressing the metal lid downward so that the molten metal TIM flows toward the boundary of the semiconductor device, and the outermost point of the lateral sidewall of the molten metal TIM extends beyond the boundary of the semiconductor device; lifting the metal lid upward so that the molten metal TIM flows back, and the outermost point of the lateral sidewall is within the boundary of the semiconductor device; and bonding the metal lid to the semiconductor device through the metal TIM by curing the molten metal TIM.

A semiconductor package structure and a method for manufacturing a semiconductor package structure are provided. The semiconductor package structure includes a first package and a second package. The first package includes a first substrate, an electronic component, a trace layer, and a first conductive structure. The first substrate has a first surface and a second surface opposite to the first surface. The electronic component is embedded in the first substrate. The trace layer has an uppermost conductive layer embedded in the first substrate and exposed from the first surface of the first substrate. The first conductive structure electrically connects the trace layer to the second surface of the first substrate. The second package is disposed on the first surface of the first substrate of the first package.