An integrated circuit package can contain a semiconductor die and provide electrical connections between the semiconductor die and additional electronic components. The integrated circuit package can reduce stress placed on the semiconductor die due to movement of the integrated circuit package due to, for example, temperature changes and/or moisture levels. The integrated circuit package can at least partially mechanically isolate the semiconductor die from the integrated circuit package.

A method of and system for adhesive bonding by a) providing a polymerizable adhesive composition on a surface of an element to be bonded to form an assembly; b) irradiating the assembly with radiation at a first wavelength capable of vulcanization of bonds in the polymerizable adhesive composition by activation of sulfur-containing compound with at least one selected from x-ray, e-beam, visible, or infrared light to thereby generate ultraviolet light in the polymerizable adhesive composition; and c) adhesively joining two or more components together by way of the polymerizable adhesive composition, and a curable polymer for use therein.

The present disclosure provides a method of transferring an electronic element using a stamping and magnetic field alignment technology and an electronic device including an electronic element transferred using the method. In the present disclosure, a polymer may be simultaneously coated on a plurality of electronic elements using the stamping process, and the polymer may be actively coated on the electronic elements without restrictions on process parameters such as size and spacing of the electronic elements. Moreover, the self-aligned ferromagnetic particles have an anisotropic current flow through which current flows only in the aligned direction. Therefore, the current may flow only vertically between the electronic element and the electrode, and there is no electrical short circuit between a peripheral LED element and the electrode.

A chip package may include: a first die; at least one second die disposed over the first die; and a lid disposed over lateral portions of the first die and at least partially surrounding the at least one second die, the lid having inclined sidewalls spaced apart from and facing the at least one second die.

A method includes followings operations. A substrate including a first surface and a second surface is provided. The substrate and a transparent film are heated to attach the transparent film on the first surface. A first coefficient of a thermal expansion (CTE) mismatch is between the substrate and the transparent film. The substrate and the transparent film are cooled. A polymeric material is disposed on the second surface. A second CTE mismatch is between the substrate and the polymeric material. The second CTE mismatch is counteracted by the first CTE mismatch.

The present disclosure provides a method of transferring an electronic element using a stamping and magnetic field alignment technology and an electronic device including an electronic element transferred using the method. In the present disclosure, a polymer may be simultaneously coated on a plurality of electronic elements using the stamping process, and the polymer may be actively coated on the electronic elements without restrictions on process parameters such as size and spacing of the electronic elements. Moreover, the self-aligned ferromagnetic particles have an anisotropic current flow through which current flows only in the aligned direction. Therefore, the current may flow only vertically between the electronic element and the electrode, and there is no electrical short circuit between a peripheral LED element and the electrode.

A semiconductor package includes a first semiconductor chip, a second semiconductor chip on the first semiconductor chip, a first semiconductor structure and a second semiconductor structure that are on the first semiconductor chip and spaced apart from each other across the second semiconductor chip, and a resin-containing member between the second semiconductor chip and the first semiconductor structure and between the second semiconductor chip and the second semiconductor structure. The semiconductor package may be fabricated at a wafer level.

A semiconductor package includes a first semiconductor chip, a second semiconductor chip on the first semiconductor chip, a first semiconductor structure and a second semiconductor structure that are on the first semiconductor chip and spaced apart from each other across the second semiconductor chip, and a resin-containing member between the second semiconductor chip and the first semiconductor structure and between the second semiconductor chip and the second semiconductor structure. The semiconductor package may be fabricated at a wafer level.

A method of manufacturing a multi-layer wafer is provided. Under bump metallization (UMB) pads are created on each of two heterogeneous wafers. A conductive means is applied above the UMB pads on at least one of the two heterogeneous wafers. The two heterogeneous wafers are low temperature bonded to adhere the UMB pads together via the conductive means. At least one stress compensating polymer layer may be applied to at least one of two heterogeneous wafers. The stress compensating polymer layer has a polymer composition of a molecular weight polymethylmethacrylate polymer at a level of 10-50% with added liquid multifunctional acrylates forming the remaining 50-90% of the polymer composition.

A transfer substrate for an element includes a support and an elastic body. The support includes a first surface including a first opening portion and a second surface located on the opposite side of the first surface and having a groove portion. The elastic body includes a third surface closing an upper surface of the groove portion and a fourth surface located on the opposite side of the third surface and including a plurality of projection portions. Each of the plurality of projection portions includes a second opening portion. The first opening portion and the second opening portion are penetrated via the groove portion.