The present invention discloses flip-chip bonding method using an anisotropic adhesive polymer. The method includes applying an adhesive polymer solution containing metal particles dispersed therein onto a circuit substrate to form an adhesive polymer layer such that the adhesive polymer layer covers the metal particles; drying the adhesive polymer layer; and positioning an electronic element to be electrically connected to the circuit substrate on the dried adhesive polymer layer and causing dewetting of the polymer from the metal particles.

A circuit structure for hot-press bonding includes a first substrate, a second substrate and a conductive adhesive layer. The circuit structure further includes a first conductive layer having a plurality of connection electrodes arranged on the first substrate, a second conductive layer including a plurality of backup electrodes respectively corresponding to the connection electrodes, an insulating layer arranged between the first conductive layer and the second conductive layer, and a plurality of conductive via arranged in the insulating layer and connected to corresponding connection electrodes and backup electrodes to provide current conduction paths therebetween, thus provide additional conduction path for the connection electrodes even the connection electrodes have fracture and enhance yield and connection reliability.

A method for manufacturing a mounting body comprising: a mounting step of mounting an electronic component onto a wiring board via an anisotropic conductive film containing a binder having an epoxy resin as a primary constituent and conductive particles having a compressive hardness (K) of 500 kgf/mm.sup.2 or more when compressively deformed by 10%, wherein a relation between a thickness (A) of the binder and an average particle diameter (B) is 0.6B/A1.5 and an elastic modulus of the binder after curing is 50 MPa or more at 100 C.; and a remounting step of mechanically peeling to detach the electronic component and the wiring board in the case of a problem occurring in mounting of the mounting step and reusing the wiring board to perform the mounting step.

An anisotropic conductive film includes an electrically conductive particle dispersion layer, which includes electrically conductive particles dispersed, in a predetermined dispersion state, in an electrically insulating adhesive. The anisotropic conductive film includes a defective portion indication means configured to provide information about a location of a defective portion regarding the dispersion state of the electrically conductive particles. A bonding method for bonding the anisotropic conductive film to an electronic component is performed such that, in accordance with the information about the location of the defective portion, obtained from the defective portion indication means, a defect-free portion of the anisotropic conductive film is bonded to a region where terminals or terminal arrays are present in the electronic component to be anisotropically conductively connected.

The present invention discloses flip-chip bonding method using an anisotropic adhesive polymer. The method includes applying an adhesive polymer solution containing metal particles dispersed therein onto a circuit substrate to form an adhesive polymer layer such that the adhesive polymer layer covers the metal particles; drying the adhesive polymer layer; and positioning an electronic element to be electrically connected to the circuit substrate on the dried adhesive polymer layer and causing dewetting of the polymer from the metal particles.

An anisotropic conductive film includes an electrically conductive particle dispersion layer, which includes electrically conductive particles dispersed, in a predetermined dispersion state, in an electrically insulating adhesive. The anisotropic conductive film includes a defective portion indication means configured to provide information about a location of a defective portion regarding the dispersion state of the electrically conductive particles. A bonding method for bonding the anisotropic conductive film to an electronic component is performed such that, in accordance with the information about the location of the defective portion, obtained from the defective portion indication means, a defect-free portion of the anisotropic conductive film is bonded to a region where terminals or terminal arrays are present in the electronic component to be anisotropically conductively connected.

Provided is a curable composition for an electronic component that can be quickly cured and furthermore can have increased storage stability. The curable composition for an electronic component according to the present invention contains an epoxy compound, an anionic curing agent, a flux, and a basic compound excluding the anionic curing agent.