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

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

In some examples, a system comprises a first component having a first surface, a first set of nanoparticles coupled to the first surface, and a first set of nanowires extending from the first set of nanoparticles. The system also comprises a second component having a second surface, a second set of nanoparticles coupled to the second surface, and a second set of nanowires extending from the second set of nanoparticles. The system further includes an adhesive positioned between the first and second surfaces. The first and second sets of nanowires are positioned within the adhesive.

In some examples, a system comprises a first component having a first surface, a first set of nanoparticles coupled to the first surface, and a first set of nanowires extending from the first set of nanoparticles. The system also comprises a second component having a second surface, a second set of nanoparticles coupled to the second surface, and a second set of nanowires extending from the second set of nanoparticles. The system further includes an adhesive positioned between the first and second surfaces. The first and second sets of nanowires are positioned within the adhesive.

In some examples, a semiconductor package comprises a semiconductor die having a first surface and a second surface opposing the first surface. The package comprises an orifice extending through a thickness of the semiconductor die from the first surface to the second surface. The package comprises a set of metallic nanowires positioned within the orifice and extending through the thickness of the semiconductor die from the first surface to the second surface.

In some examples, a semiconductor package comprises a semiconductor die having a first surface and a second surface opposing the first surface. The package comprises an orifice extending through a thickness of the semiconductor die from the first surface to the second surface. The package comprises a set of metallic nanowires positioned within the orifice and extending through the thickness of the semiconductor die from the first surface to the second surface.

A chip package structure is provided. The chip package structure includes a substrate having a first surface and a second surface opposite to the first surface. The chip package structure includes a first chip structure and a second chip structure over the first surface. The chip package structure includes a protective layer over the first surface and surrounding the first chip structure and the second chip structure. A portion of the protective layer is between the first chip structure and the second chip structure. The chip package structure includes a first anti-warpage bump over the second surface and extending across the portion of the protective layer. The chip package structure includes a conductive bump over the second surface and electrically connected to the first chip structure or the second chip structure. The first anti-warpage bump is wider than the conductive bump.

A chip package structure is provided. The chip package structure includes a substrate having a first surface and a second surface opposite to the first surface. The chip package structure includes a first chip structure and a second chip structure over the first surface. The chip package structure includes a protective layer over the first surface and surrounding the first chip structure and the second chip structure. A portion of the protective layer is between the first chip structure and the second chip structure. The chip package structure includes a first anti-warpage bump over the second surface and extending across the portion of the protective layer. The chip package structure includes a conductive bump over the second surface and electrically connected to the first chip structure or the second chip structure. The first anti-warpage bump is wider than the conductive bump.

Embodiments herein describe techniques for bonded wafers that includes a first wafer bonded with a second wafer, and a stress compensation layer in contact with the first wafer or the second wafer. The first wafer has a first stress level at a first location, and a second stress level different from the first stress level at a second location. The stress compensation layer includes a first material at a first location of the stress compensation layer that induces a third stress level at the first location of the first wafer, a second material different from the first material at a second location of the stress compensation layer that induces a fourth stress level different from the third stress level at the second location of the first wafer. Other embodiments may be described and/or claimed.

Embodiments herein describe techniques for bonded wafers that includes a first wafer bonded with a second wafer, and a stress compensation layer in contact with the first wafer or the second wafer. The first wafer has a first stress level at a first location, and a second stress level different from the first stress level at a second location. The stress compensation layer includes a first material at a first location of the stress compensation layer that induces a third stress level at the first location of the first wafer, a second material different from the first material at a second location of the stress compensation layer that induces a fourth stress level different from the third stress level at the second location of the first wafer. Other embodiments may be described and/or claimed.