A thermosetting composition for use as an underfill material contains: a mono- or bifunctional acrylic compound; a thermo-radical polymerization initiator; silica; and an elastomer including a 1,2-vinyl group. The thermosetting composition is liquid and has a property of turning, when cured thermally, into a cured product having a relative dielectric constant of 3.2 or less at 25 C. and a dielectric loss tangent of 0.013 or less at 25 C.

A thermosetting composition for use as an underfill material contains: a mono- or bifunctional acrylic compound; a thermo-radical polymerization initiator; silica; and an elastomer including a 1,2-vinyl group. The thermosetting composition is liquid and has a property of turning, when cured thermally, into a cured product having a relative dielectric constant of 3.2 or less at 25 C. and a dielectric loss tangent of 0.013 or less at 25 C.

Provided relates to a method for manufacturing an anisotropic conductive adhesive and a method for mounting a component using an anisotropic conductive adhesive, and provides a method for manufacturing an anisotropic conductive adhesive, including: a process of removing a first oxide film on solder particles by using a first reducing agent; and a process of manufacturing an anisotropic conductive adhesive by mixing the solder particles, a gapper, and an adhesive resin.

Provided relates to a method for manufacturing an anisotropic conductive adhesive and a method for mounting a component using an anisotropic conductive adhesive, and provides a method for manufacturing an anisotropic conductive adhesive, including: a process of removing a first oxide film on solder particles by using a first reducing agent; and a process of manufacturing an anisotropic conductive adhesive by mixing the solder particles, a gapper, and an adhesive resin.

Provided is a method of manufacturing compliant bumps, the method including preparing an electronic device including at least one conductive pad, forming an elastic resin layer on the electronic device, forming a photoresist layer on the elastic resin layer, forming a first photoresist pattern on a region spaced apart from a region where the conductive pad is located, forming a second photoresist pattern having a lower cross-sectional area greater than an upper cross-sectional area, forming an elastic resin pattern having a lower cross-sectional area greater than an upper cross-sectional area, on a region spaced apart from a region where the conductive pad is located, and forming a conductive wiring pattern covering at least a part of the elastic resin pattern and extending to the conductive pad.

Provided is a method of manufacturing compliant bumps, the method including preparing an electronic device including at least one conductive pad, forming an elastic resin layer on the electronic device, forming a photoresist layer on the elastic resin layer, forming a first photoresist pattern on a region spaced apart from a region where the conductive pad is located, forming a second photoresist pattern having a lower cross-sectional area greater than an upper cross-sectional area, forming an elastic resin pattern having a lower cross-sectional area greater than an upper cross-sectional area, on a region spaced apart from a region where the conductive pad is located, and forming a conductive wiring pattern covering at least a part of the elastic resin pattern and extending to the conductive pad.

Provided is a method of manufacturing compliant bumps, the method including preparing an electronic device including at least one conductive pad, forming an elastic resin layer on the electronic device, forming a photoresist layer on the elastic resin layer, forming a first photoresist pattern on a region spaced apart from a region where the conductive pad is located, forming a second photoresist pattern having a lower cross-sectional area greater than an upper cross-sectional area, forming an elastic resin pattern having a lower cross-sectional area greater than an upper cross-sectional area, on a region spaced apart from a region where the conductive pad is located, and forming a conductive wiring pattern covering at least a part of the elastic resin pattern and extending to the conductive pad.

Provided is a method of manufacturing compliant bumps, the method including preparing an electronic device including at least one conductive pad, forming an elastic resin layer on the electronic device, forming a photoresist layer on the elastic resin layer, forming a first photoresist pattern on a region spaced apart from a region where the conductive pad is located, forming a second photoresist pattern having a lower cross-sectional area greater than an upper cross-sectional area, forming an elastic resin pattern having a lower cross-sectional area greater than an upper cross-sectional area, on a region spaced apart from a region where the conductive pad is located, and forming a conductive wiring pattern covering at least a part of the elastic resin pattern and extending to the conductive pad.

A thermal bonding sheet includes a layer, in which hardness of the layer after being heated at a heating rate of 1.5 C./sec from 80 C. to 300 C. under pressure of 10 MPa, and then held at 300 C. for 2.5 minutes is in a range of 1.5 GPa to 10 GPa in measurement using a nanoindenter.

A thermal bonding sheet includes a layer, in which hardness of the layer after being heated at a heating rate of 1.5 C./sec from 80 C. to 300 C. under pressure of 10 MPa, and then held at 300 C. for 2.5 minutes is in a range of 1.5 GPa to 10 GPa in measurement using a nanoindenter.