The present invention provides a conductive material in which, even when the conductive material is left for a certain period of time, solder of conductive particles can be efficiently placed on an electrode, and, in addition, yellowing of the conductive material can be sufficiently suppressed during heating. The conductive material according to the present invention contains a plurality of conductive particles having solder at an outer surface portion of a conductive portion, a curable compound, and a boron trifluoride complex.

The present invention provides a conductive material in which, even when the conductive material is left for a certain period of time, solder of conductive particles can be efficiently placed on an electrode, and, in addition, yellowing of the conductive material can be sufficiently suppressed during heating. The conductive material according to the present invention contains a plurality of conductive particles having solder at an outer surface portion of a conductive portion, a curable compound, and a boron trifluoride complex.

The present invention is to provide an electroconductive adhesive composition which contains a thermoplastic resin and has high heat dissipation properties and which is inhibited from suffering the bleeding-out phenomenon in which a nonpolar solvent undesirably bleeds out after die bonding. The present invention relates to an electroconductive adhesive composition including (A) electroconductive particles, (B) a thermoplastic resin, (C) a nonpolar solvent, and (D) a water-insoluble fluorochemical surfactant.

The present invention is to provide an electroconductive adhesive composition which contains a thermoplastic resin and has high heat dissipation properties and which is inhibited from suffering the bleeding-out phenomenon in which a nonpolar solvent undesirably bleeds out after die bonding. The present invention relates to an electroconductive adhesive composition including (A) electroconductive particles, (B) a thermoplastic resin, (C) a nonpolar solvent, and (D) a water-insoluble fluorochemical surfactant.

A method of and system for manufacturing an electronic device, a curable conductive adhesive for use in the same, and an electronic device are disclosed. The method includes printing a conductive adhesive onto pads at ends of traces on a substrate, placing one or more components having a non-standard size and/or shape onto the pads with the conductive adhesive thereon, and after the component(s) have been placed onto the pads, curing the conductive adhesive at a predetermined temperature or with light having a predetermined wavelength (band). The system comprises a printer configured to print a conductive adhesive onto pads at ends of traces on a substrate, a surface mounting machine configured to place one or more components having a non-standard size and/or shape onto the pads with the conductive adhesive thereon, and a curing station configured to cure the conductive adhesive after the component(s) have been placed onto the pads.

A method of and system for manufacturing an electronic device, a curable conductive adhesive for use in the same, and an electronic device are disclosed. The method includes printing a conductive adhesive onto pads at ends of traces on a substrate, placing one or more components having a non-standard size and/or shape onto the pads with the conductive adhesive thereon, and after the component(s) have been placed onto the pads, curing the conductive adhesive at a predetermined temperature or with light having a predetermined wavelength (band). The system comprises a printer configured to print a conductive adhesive onto pads at ends of traces on a substrate, a surface mounting machine configured to place one or more components having a non-standard size and/or shape onto the pads with the conductive adhesive thereon, and a curing station configured to cure the conductive adhesive after the component(s) have been placed onto the pads.

A display panel measures a contact resistance of an adhesive portion to evaluate adhesion quality of an integrated circuit mounted thereon. The display panel includes a plurality of light-emitting elements, a first pad part including a plurality of first effective pads electrically connected to the light-emitting elements, and n (n being a natural number equal to or greater than 2) first measuring pads insulated from the light-emitting elements, a conductive adhesive film on the first pad part and including a plurality of conductive balls, an integrated circuit on the conductive adhesive film, and including an internal line electrically connected to the first measuring pads by the conductive balls, and a second pad part including a plurality of second effective pads electrically connected to the first effective pads, and 2n second measuring pads electrically connected to the first measuring pads.

A display panel measures a contact resistance of an adhesive portion to evaluate adhesion quality of an integrated circuit mounted thereon. The display panel includes a plurality of light-emitting elements, a first pad part including a plurality of first effective pads electrically connected to the light-emitting elements, and n (n being a natural number equal to or greater than 2) first measuring pads insulated from the light-emitting elements, a conductive adhesive film on the first pad part and including a plurality of conductive balls, an integrated circuit on the conductive adhesive film, and including an internal line electrically connected to the first measuring pads by the conductive balls, and a second pad part including a plurality of second effective pads electrically connected to the first effective pads, and 2n second measuring pads electrically connected to the first measuring pads.

The present invention relates to a thermally and electrically conductive adhesive composition, which includes (A) an electrically conductive filler, (B) an epoxy resin, (C) a reactive diluent, and (D) a curing agent, wherein the component (A) is a silver powder having an average particle diameter of 1 to 10 m, the component (B) has two or more epoxy functional groups and aromatic rings in each molecule, the component (C) is a compound having two or more glycidyl ether functional groups in an aliphatic hydrocarbon chain and also having a molecular weight of 150 to 600, and the component (D) is a compound having two or more phenol functional groups in each molecule, a compound having two or more aniline functional groups in each molecule, or a mixture of these compounds, and the content of each of the component (A), (B), (C), and (D) is within a specific range.

The present invention relates to a thermally and electrically conductive adhesive composition, which includes (A) an electrically conductive filler, (B) an epoxy resin, (C) a reactive diluent, and (D) a curing agent, wherein the component (A) is a silver powder having an average particle diameter of 1 to 10 m, the component (B) has two or more epoxy functional groups and aromatic rings in each molecule, the component (C) is a compound having two or more glycidyl ether functional groups in an aliphatic hydrocarbon chain and also having a molecular weight of 150 to 600, and the component (D) is a compound having two or more phenol functional groups in each molecule, a compound having two or more aniline functional groups in each molecule, or a mixture of these compounds, and the content of each of the component (A), (B), (C), and (D) is within a specific range.