This anisotropic conductive sheet has: an insulation layer that has a first surface and a second surface and that is formed of a first resin composition; a plurality of resinous columns that are formed of a second resin composition and that are disposed so as to extend in the thickness direction within the insulation layer; and a plurality of conductive layers that are disposed between the insulation layer and the plurality of resinous columns and that are exposed outside the second surface and the first surface.

A resin film includes a resin composition for forming a flexible resin layer. The resin composition includes an elastomer, a polymerizable compound, and a polymerization initiator. A laminated film includes a base material film, a resin film formed on the base material film, and a protective film attached to the resin film.

The method for manufacturing a number of electrical nodes, wherein the method includes providing a number of electronic circuits onto a first substrate, such as on a printed circuit board or other electronics substrate, optionally, a low-temperature co-fired ceramic substrate, wherein each one of the electronic circuits includes a circuit pattern and at least one electronics component in connection with the circuit pattern, wherein the electronic circuits are spaced from each other on the first substrate, thereby defining a blank area surrounding each one of the number of electronic circuits, respectively, and providing potting or casting material to embed each one of the number of electronic circuits in the potting or casting material, and, subsequently, hardening, optionally including curing, the potting or casting material to form a filler material layer of the number of electrical nodes.

A curable resin composition includes: a first epoxy resin having a polyoxyalkylene chain; a second epoxy resin different from the first epoxy resin; a thermoplastic resin having a weight average molecular weight of 300,000 or less, and having a reactive functional group; at least one selected from the group consisting of a curing agent and a curing accelerator; and an inorganic filler.

The disclosure provides a conductive slurry, which includes a conductive paste comprising polar materials and a hydrophobic agent mixed with the conductive paste. The hydrophobic agent includes solvent and hydrophobic particles. The solvent of the hydrophobic agent includes a non-polar material.

A system and method for forming a stretchable conductive circuit package that utilizes an addition and condensation mechanism incorporated into one system. When the stretchable conductive ink is used in a circuit package, the circuit package has high reliability and durability.

A solid state die such as an LED (or OLED) die that is fitted in a hole such as a through hole in a carrier substrate such as a PCB. The die is to be connected to the PCB e.g. to tracks on the PCB. The electrical contacts on the die are arranged to be (e.g. substantially) in the same plane as the contacts on the carrier substrate such as the PCB. This is achieved by the holes in the substrate such as the PCB being adapted so that the dies fit into the holes or openings, i.e. are each taken up into an opening before electrical contacts are made.

A method of depositing a donor material onto a target surface is provided herein, in which a first main side of a substrate is covered with a stretchable layer that is attaching thereto with a sealing around an enclosed area at the first main side, therewith defining an enclosure. The stretchable layer has an outer surface that faces away from the substrate, and that is patterned with one or more recessed areas filled with the donor material to be deposited. A relatively high pressure is provided in an interior of the enclosure so that its volume is increased and the patterned surface of the stretchable layer is pressed against the target surface. In that state of the stretchable layer the substrate is irradiated at a second main side opposite its first main side with photon radiation that has an intensity and a duration that causes a transfer of donor material from the one or more recessed areas to the target surface. Also a plate and a deposition device are provided.

A method electrically insulates an electronic device including a housing having a first face provided with a first opening closed by a PCB and a second face provided with a second opening extending facing at least a portion of at least one connection interface in which at least one first connector is connected. The method includes the steps of forming a mold around the connection interface, and while the device is placed in a vacuum enclosure, pouring a liquid resin into the mold in order to form a layer of electrically insulating material between the connector and the connection interface. A device is obtained by performing the method.

A composition for forming a protective coating on an electronic device that is in the form of a non-Newtonian fluid that exhibits both viscous and elastic properties, and that forms at least one coating that is hydrophobic, oleophobic, or oleophilic is disclosed. The viscous and elastic properties associated with the non-Newtonian fluid allows the composition to redistribute after being applied as a coating an electronic device. Methods for protecting an electronic device from liquid contaminants by applying the disclosed composition and electronic devices comprising the composition are also disclosed. An electronic device, such as a printed circuit board, having a film made of the composition is also disclosed.