This anisotropic conductive sheet has an insulation layer, a plurality of conduction paths, and a plurality of adhesion layers disposed therebetween. The adhesion layers each contain a silane coupling agent composition containing a silane coupling agent having a vinyl group and a hydrolyzable group, or a polycondensate of said composition. In the anisotropic conductive sheet: a) the insulation layer contains an addition crosslinked product of a silicone rubber composition containing an organopolysiloxane having a SiH group, and the vinyl groups of the adhesion layers is bound to the SiH group of the insulation layer through an addition reaction; or b) the insulation layer contains an organic peroxide crosslinked product of a silicone rubber composition containing an organopolysiloxane having a SiCH.sub.3 group, the vinyl groups of the adhesion layers is bound to the SiCH.sub.3 group of the insulation layer through a radical addition reaction.

A filler-containing film has a structure in which fillers are held in a binder resin layer. The average particle diameter of the fillers is 1 to 50 μm, the total thickness of the resin layer is 0.5 times or more and 2 times or less the average particle diameter of the fillers, and the ratio Lq/Lp of, relative to the minimum inter-filler distance Lp at one end of the filler-containing film in a long-side direction, a minimum inter-filler distance Lq at the other end at least 5 m away from the one end in the film long-side direction is 1.2 or less. The fillers are preferably arranged in a lattice form.

Disclosed are a high performance stretchable electrode having a double layer structure with flexibility and high coverage, as well as a manufacturing method thereof. The stretchable electrode of the present invention has excellent performance based on high coverage. Therefore, the present invention may provide a high performance stretchable electrode with high conductivity and low gauge factor by selectively adjusting flexibility of the electrode.

Disclosed are a high performance stretchable electrode having a double layer structure with flexibility and high coverage, as well as a manufacturing method thereof. The stretchable electrode of the present invention has excellent performance based on high coverage. Therefore, the present invention may provide a high performance stretchable electrode with high conductivity and low gauge factor by selectively adjusting flexibility of the electrode.

Micro-isolators exhibiting enhanced isolation breakdown voltage are described. The micro-isolators may include an electrically floating ring surrounding one of the isolator elements of the micro-isolator. The isolator elements may be capacitor plates or coils. The electrically floating ring surrounding one of the isolator elements may reduce the electric field at the outer edge of the isolator element, thereby enhancing the isolation breakdown voltage.

Micro-isolators exhibiting enhanced isolation breakdown voltage are described. The micro-isolators may include an electrically floating ring surrounding one of the isolator elements of the micro-isolator. The isolator elements may be capacitor plates or coils. The electrically floating ring surrounding one of the isolator elements may reduce the electric field at the outer edge of the isolator element, thereby enhancing the isolation breakdown voltage.

Neuromodulation electrodes and related methods to treat pelvic floor disorders, such as urinary and/or faecal incontinence, using electrical stimulation of the left and/or right branches of the dorsal genital nerves, or pudendal nerve, using a highly flexible electrode unit to obtain stable and comfortable contact with the cutaneous tissue or mucous membrane at or near the glans of the clitoris, in close proximity of the targeted nerve, for stabile neuromodulation applications.

Neuromodulation electrodes and related methods to treat pelvic floor disorders, such as urinary and/or faecal incontinence, using electrical stimulation of the left and/or right branches of the dorsal genital nerves, or pudendal nerve, using a highly flexible electrode unit to obtain stable and comfortable contact with the cutaneous tissue or mucous membrane at or near the glans of the clitoris, in close proximity of the targeted nerve, for stabile neuromodulation applications.

A connection structure, a method of manufacturing the connection structure, a connection material, and a coated conductive particle capable of reducing and stabilizing a conduction resistance value. The connection structure includes: a first electronic component having a first terminal; a second electronic component having a second terminal, and a cured film provided between the first electronic component and the second electronic component and formed by curing the connection material, wherein, with regard to the coated conductive particles between the first terminal and the second terminal, metal atoms of the conductive layer diffuse into the metal of the metal fine particles, and metal atoms of the first terminal and the metal atoms of the second terminal diffuse into the metal of the metal fine particles.

A connection structure, a method of manufacturing the connection structure, a connection material, and a coated conductive particle capable of reducing and stabilizing a conduction resistance value. The connection structure includes: a first electronic component having a first terminal; a second electronic component having a second terminal, and a cured film provided between the first electronic component and the second electronic component and formed by curing the connection material, wherein, with regard to the coated conductive particles between the first terminal and the second terminal, metal atoms of the conductive layer diffuse into the metal of the metal fine particles, and metal atoms of the first terminal and the metal atoms of the second terminal diffuse into the metal of the metal fine particles.