Provided is a semiconductor package including a first bump pad on a first substrate, a second bump pad on a second substrate, a core material for reverse reflow between the first bump pad and the second bump pad, and a solder member forming a solder layer on the core material for reverse reflow. The solder member is in contact with the first bump pad and the second bump pad. Each of a first diameter of the first bump pad and a second diameter of the second bump pad is at least about 1.1 times greater than a third diameter of the core material for reverse reflow. The core material for reverse reflow includes a core, a first metal layer directly coated on the core, and a second metal layer directly coated on the first metal layer.

Provided is a semiconductor package including a first bump pad on a first substrate, a second bump pad on a second substrate, a core material for reverse reflow between the first bump pad and the second bump pad, and a solder member forming a solder layer on the core material for reverse reflow. The solder member is in contact with the first bump pad and the second bump pad. Each of a first diameter of the first bump pad and a second diameter of the second bump pad is at least about 1.1 times greater than a third diameter of the core material for reverse reflow. The core material for reverse reflow includes a core, a first metal layer directly coated on the core, and a second metal layer directly coated on the first metal layer.

A semiconductor device includes a semiconductor chip having a first face and a second face on an opposite side to the first face, and including semiconductor elements arranged on the first face. Columnar electrodes are arranged above the first face, and electrically connected to any of the semiconductor elements. A first member is located around the columnar electrodes above the first face. An insulant covers the columnar electrodes and the first member. The first member is harder than the columnar electrodes and the insulant. The first member and the columnar electrodes are exposed from a surface of the insulant.

A semiconductor device includes a semiconductor chip having a first face and a second face on an opposite side to the first face, and including semiconductor elements arranged on the first face. Columnar electrodes are arranged above the first face, and electrically connected to any of the semiconductor elements. A first member is located around the columnar electrodes above the first face. An insulant covers the columnar electrodes and the first member. The first member is harder than the columnar electrodes and the insulant. The first member and the columnar electrodes are exposed from a surface of the insulant.

Packaging structure is provided. A substrate is provided, and an adhesive layer is formed on the substrate. An improvement layer is formed on the adhesive layer. The improvement layer contains openings exposing surface portions of the adhesive layer at bottoms of the openings. A plurality of chips is provided and includes functional surfaces. The plurality of chips is mounted on the substrate such that the functional surfaces are bonded to the adhesive layer at the bottoms of the openings.

In various embodiments, a method for forming a bonded structure is disclosed. The method can comprise mounting a first integrated device die to a carrier. After mounting, the first integrated device die can be thinned. The method can include providing a first layer on an exposed surface of the first integrated device die. At least a portion of the first layer can be removed. A second integrated device die can be directly bonded to the first integrated device die without an intervening adhesive.

In various embodiments, a method for forming a bonded structure is disclosed. The method can comprise mounting a first integrated device die to a carrier. After mounting, the first integrated device die can be thinned. The method can include providing a first layer on an exposed surface of the first integrated device die. At least a portion of the first layer can be removed. A second integrated device die can be directly bonded to the first integrated device die without an intervening adhesive.

A semiconductor package manufacturing method of the disclosure includes providing a multilayer adhesive film, forming a notch and a plurality of openings extending through the multilayer adhesive film, attaching the multilayer adhesive film to a back side of a wafer to form a stack, separating the stack into a plurality of individual stacks, separating each of the plurality of individual stacks into an upper stack and a lower stack, providing a substrate on which a first semiconductor chip is mounted, and stacking the upper stack on the first semiconductor chip. The upper stack includes a second semiconductor chip and a die attach pattern covering a portion of a back surface of the second semiconductor chip. A first side surface of the die attach pattern is aligned with a first side surface of the first semiconductor chip.

A semiconductor package manufacturing method of the disclosure includes providing a multilayer adhesive film, forming a notch and a plurality of openings extending through the multilayer adhesive film, attaching the multilayer adhesive film to a back side of a wafer to form a stack, separating the stack into a plurality of individual stacks, separating each of the plurality of individual stacks into an upper stack and a lower stack, providing a substrate on which a first semiconductor chip is mounted, and stacking the upper stack on the first semiconductor chip. The upper stack includes a second semiconductor chip and a die attach pattern covering a portion of a back surface of the second semiconductor chip. A first side surface of the die attach pattern is aligned with a first side surface of the first semiconductor chip.

An adhesive member includes: a conductive particle layer including a plurality of conductive particles; a non-conductive layer disposed on the conductive particle layer; and a screening layer interposed between the conductive particle layer and the non-conductive layer and includes a plurality of screening members spaced apart from each other.