A semiconductor device includes a substrate including, on a surface thereof, a first conductive pad and a first insulating layer formed around the first conductive pad, a semiconductor chip including, on a surface thereof, a second conductive pad and a second insulating layer around the second conductive pad, an intermediate layer formed between the substrate and the semiconductor chip, and including a conductive portion between the first and second conductive pads, and an insulating portion between the first and second insulating layers, and a molecular bonding layer formed between the substrate and the intermediate layer, and including at least one of a first molecular portion covalently bonded to a material of the first conductive pad and a material of the conductive portion, and a second molecular portion covalently bonded to a material of the first insulating layer and a material of the insulating portion.

A semiconductor device includes a base, a semiconductor chip on the base, a conductive bonding layer between a surface of the base and a surface of the semiconductor chip, the conductive bonding layer including a resin and a plurality of conductive particles contained in the resin, and a molecular bonding layer between the surface of the semiconductor chip and a surface of the conductive bonding layer, and including a molecular portion covalently bonded to a material of the semiconductor chip and a material of the conductive bonding layer.

An anisotropic conductive film (ACF) is disclosed. In one approach, the ACF includes a non-reflective adhesive layer including a top surface, a plurality of conductive particles included with the non-reflective adhesive layer, and a reflective adhesive layer disposed along the top surface of the non-reflective adhesive layer.

Illustrative embodiments of anisotropic conductive adhesive (ACA) and associated methods are disclosed. In one illustrative embodiment, the ACA may comprise a binder curable using UV light and a plurality of particles suspended in the binder. Each of the plurality of particles may comprise a ferromagnetic material coated with a layer of electrically conductive material. The electrically conducting material may form electrically conductive and isolated parallel paths when the ACA is cured using UV light after being subjected to a magnetic field.

A connector for coupling an electronic component having an external connector pad to another structure, comprising an anisotropic conductive elastomer or adhesive composite comprising a plurality of separate columns of conductive particles held in an insulating matrix, with a top particle exposed to a surface of the matrix, wherein at least the top particle is coated with a metal that can permanently bond to the connector pad of the electronic component. Also disclosed are a related method, and a related electronic assembly.

An anisotropic conductive film including an electrically insulating adhesive layer, and electrically conductive particles disposed on the electrically insulating adhesive layer. In such an anisotropic conductive film, the electrically conductive particles are disposed in a lattice by being arranged in first direction rows and second direction rows, and narrow and wide intervals are provided between neighboring rows in at least one of the direction rows. As a result, opposing terminals are stably connected using the anisotropic conductive film, inspection after the connecting is more easily performed, and the number of electrically conductive particles not involved in the connection are reduced and, thereby, the manufacturing cost of the anisotropic conductive film is reduced, even in FOG connections or the like with finer bump pitches.

A conductive composition, which can form bonded portions and is capable of maintaining a thickness of the bonded portions and bonding strength, and which includes: (A) silver fine particles having a number average particle diameter of primary particles of 40 nm to 400 nm, (B) a solvent, and (C) thermoplastic resin particles having a maximal value of an endothermic peak in a DSC chart, determined by a measurement using a differential scanning calorimeter, within a range of 80° C. to 170° C.

In a display device, in which an IC chip, which has an output and an input bump group, is mounted onto a display panel via an ACF, and a total area of end surfaces of output bumps that form the output bump group is larger than a total area of end surfaces of input bumps that form the input bump group, a concentration of conductive particles in a portion of the ACF corresponding to the output bump group is lower than a concentration of conductive particles in a portion of the ACF corresponding to the input bump group.

In a display device, in which an IC chip, which has an output and an input bump group, is mounted onto a display panel via an ACF, and a total area of end surfaces of output bumps that form the output bump group is larger than a total area of end surfaces of input bumps that form the input bump group, a concentration of conductive particles in a portion of the ACF corresponding to the output bump group is lower than a concentration of conductive particles in a portion of the ACF corresponding to the input bump group.

Provided is a resin sheet, wherein in a stress measurement in which a dynamic shear strain is applied in a direction parallel to a surface, the difference between a loss tangent as measured when a strain amplitude is 10% of the sheet thickness and a loss tangent as measured when the amplitude is 0.1% is equal to or greater than 1 at a temperature of 80° C. and a frequency of 0.5 Hz. The resin sheet of the present invention can provide a semiconductor device with excellent connection reliability, wherein air bubbles and cracks are less likely to occur in the resin sheet. In the resin composition of the present invention, aggregates are less likely to occur during storage. The resin sheet obtained by forming the resin composition into a sheet has good flatness. The hardened material thereof can provide a circuit board or a semiconductor device with high connection reliability.