This member connection method includes a printing step. In the printing step, a coating film-formed region in which the coating film is formed, and a coating film non-formed region in which the coating film is not formed are formed in the print pattern, and the coating film-formed region is divided into a plurality of concentric regions and a plurality of radial regions by means of a plurality of line-shaped regions provided so as to connect various points, which are separated apart from one another in the marginal part of the connection region.

This member connection method includes a printing step. In the printing step, a coating film-formed region in which the coating film is formed, and a coating film non-formed region in which the coating film is not formed are formed in the print pattern, and the coating film-formed region is divided into a plurality of concentric regions and a plurality of radial regions by means of a plurality of line-shaped regions provided so as to connect various points, which are separated apart from one another in the marginal part of the connection region.

A package structure and a formation method of a package structure are provided. The method includes disposing a chip structure over a substrate and forming a first adhesive element directly on the chip structure. The first adhesive element has a first thermal conductivity. The method also includes forming a second adhesive element directly on the chip structure. The second adhesive element has a second thermal conductivity, and the second thermal conductivity is greater than the first thermal conductivity. The method further includes attaching a protective lid to the chip structure through the first adhesive element and the second adhesive element.

A package structure and a formation method of a package structure are provided. The method includes disposing a chip structure over a substrate and forming a first adhesive element directly on the chip structure. The first adhesive element has a first thermal conductivity. The method also includes forming a second adhesive element directly on the chip structure. The second adhesive element has a second thermal conductivity, and the second thermal conductivity is greater than the first thermal conductivity. The method further includes attaching a protective lid to the chip structure through the first adhesive element and the second adhesive element.

Semiconductor devices with underfill control features, and associated systems and methods. A representative system includes a substrate having a substrate surface and a cavity in the substrate surface, and a semiconductor device having a device surface facing toward the substrate surface. The semiconductor device further includes at least one circuit element electrically coupled to a conductive structure. The conductive structure is electrically connected to the substrate, and the semiconductor device further has a non-conductive material positioned adjacent the conductive structure and aligned with the cavity of the substrate. An underfill material is positioned between the substrate and the semiconductor device. In other embodiments, in addition to or in lieu of the con-conductive material, a first conductive structure is connected within the cavity, and a second conductive structure connected outside the cavity. The first conductive structure extends away from the device surface a greater distance than does the second conductive structure.

Semiconductor devices with underfill control features, and associated systems and methods. A representative system includes a substrate having a substrate surface and a cavity in the substrate surface, and a semiconductor device having a device surface facing toward the substrate surface. The semiconductor device further includes at least one circuit element electrically coupled to a conductive structure. The conductive structure is electrically connected to the substrate, and the semiconductor device further has a non-conductive material positioned adjacent the conductive structure and aligned with the cavity of the substrate. An underfill material is positioned between the substrate and the semiconductor device. In other embodiments, in addition to or in lieu of the con-conductive material, a first conductive structure is connected within the cavity, and a second conductive structure connected outside the cavity. The first conductive structure extends away from the device surface a greater distance than does the second conductive structure.

Semiconductor devices with underfill control features, and associated systems and methods. A representative system includes a substrate having a substrate surface and a cavity in the substrate surface, and a semiconductor device having a device surface facing toward the substrate surface. The semiconductor device further includes at least one circuit element electrically coupled to a conductive structure. The conductive structure is electrically connected to the substrate, and the semiconductor device further has a non-conductive material positioned adjacent the conductive structure and aligned with the cavity of the substrate. An underfill material is positioned between the substrate and the semiconductor device. In other embodiments, in addition to or in lieu of the con-conductive material, a first conductive structure is connected within the cavity, and a second conductive structure connected outside the cavity. The first conductive structure extends away from the device surface a greater distance than does the second conductive structure.

A package structure and a formation method of a package structure are provided. The method includes disposing a chip structure over a substrate and forming a first adhesive element directly on the chip structure. The first adhesive element has a first thermal conductivity. The method also includes forming a second adhesive element directly on the chip structure. The second adhesive element has a second thermal conductivity, and the second thermal conductivity is greater than the first thermal conductivity. The method further includes attaching a protective lid to the chip structure through the first adhesive element and the second adhesive element.

A package structure and a formation method of a package structure are provided. The method includes disposing a chip structure over a substrate and forming a first adhesive element directly on the chip structure. The first adhesive element has a first thermal conductivity. The method also includes forming a second adhesive element directly on the chip structure. The second adhesive element has a second thermal conductivity, and the second thermal conductivity is greater than the first thermal conductivity. The method further includes attaching a protective lid to the chip structure through the first adhesive element and the second adhesive element.

A package structure is provided. The package structure includes a chip-containing structure over a substrate and a first adhesive element directly above the chip-containing structure. The first adhesive element has a first thermal conductivity. The package structure also includes multiple second adhesive elements directly above the chip-containing structure. The second adhesive elements are spaced apart from each other, each of the second adhesive elements has a second thermal conductivity, and the second thermal conductivity is greater than the first thermal conductivity. The package structure further includes a protective lid attached to the chip-containing structure through the first adhesive element and the second adhesive elements. The protective lid extends across opposite sidewalls of the chip-containing structure.