A semiconductor structure including at least one integrated circuit component is provided. The at least one integrated circuit component includes a first semiconductor substrate and a second semiconductor substrate electrically coupled to the first semiconductor substrate, wherein the first semiconductor substrate and the second semiconductor substrate are bonded through a first hybrid bonding interface, and at least one of the first semiconductor substrate or the second semiconductor substrate includes at least one first embedded capacitor.

An engineered substrate comprising: a seed layer made of a first semiconductor material for growth of a solar cell; a first bonding layer on the seed layer; a support substrate made of a second semiconductor material; a second bonding layer on a first side of the support substrate; a bonding interface between the first and second bonding layers; the first and second bonding layers each made of metallic material; wherein doping concentration and thickness of the engineered substrate, in particular, of the seed layer, the support substrate, and both the first and second bonding layers, are selected such that the absorption of the seed layer is less than 20%, preferably less than 10%, as well as total area-normalized series resistance of the engineered substrate is less than 10 mOhm.Math.cm.sup.2, preferably less than 5 mOhm.Math.cm.sup.2.

An apparatus includes a first component layer. The component layer includes a first semiconductor device. The apparatus further includes a first hydrophilic layer and a first hydrophobic layer. The first hydrophobic layer is positioned between the first component layer and the first hydrophilic layer. The apparatus further includes a first contact extending through the first hydrophobic layer and the first hydrophilic layer.

A semiconductor package structure and a method for making a semiconductor package. As non-limiting examples, various aspects of this disclosure provide various semiconductor package structures, and methods for making thereof, that comprise a connect die that routes electrical signals between a plurality of other semiconductor die.

A package structure includes a circuit substrate, a semiconductor package, a first ring structure and a second ring structure. The semiconductor package is disposed on and electrically connected to the circuit substrate. The first ring structure is attached to the circuit substrate and surrounding the semiconductor package, wherein the first ring structure includes a central opening and a plurality of corner openings extending out from corners of the central opening, the semiconductor package is located in the central opening, and the plurality of corner openings is surrounding corners of the semiconductor package.

A semiconductor device and a method of manufacturing a semiconductor device. As a non-limiting example, various aspects of this disclosure provide a stackable semiconductor device with small size and fine pitch and a method of manufacturing thereof.

In order to prevent cracks from occurring at the corners of semiconductor dies after the semiconductor dies have been bonded to other substrates, an opening is formed adjacent to the corners of the semiconductor dies, and the openings are filled and overfilled with a buffer material that has physical properties that are between the physical properties of the semiconductor die and an underfill material that is placed adjacent to the buffer material.

In order to prevent cracks from occurring at the corners of semiconductor dies after the semiconductor dies have been bonded to other substrates, an opening is formed adjacent to the corners of the semiconductor dies, and the openings are filled and overfilled with a buffer material that has physical properties that are between the physical properties of the semiconductor die and an underfill material that is placed adjacent to the buffer material.

In some examples, a system comprises a set of nanoparticles and a set of nanowires extending from the set of nanoparticles.

A method of manufacturing a semiconductor device structure includes forming a bond or joint between a first device and a second device. The first device comprises an integrated passive device (IPD) and a first contact pad disposed over the IPD. The second device comprises a second contact pad. The first contact pad has a first surface with first lateral extents. The second contact pad has a second surface with second lateral extents. The width of the second lateral extents is less than the width of the first lateral extents. The joint structure includes the first contact pad, the second contact pad, and a solder layer interposed therebetween. The solder layer has tapered sidewalls extending in a direction away from the first surface of the first contact pad to the second surface of the second contact pad. At least one of the first surface or the second surface is substantially planar.